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_BlogList_.pdf |
17.75Кб |
_KnowledgeBaseList_.pdf |
179.94Кб |
_PapersAndPresentationsList_.pdf |
9.37Мб |
_People_.pdf |
6.93Кб |
_Reports_.pdf |
8.92Кб |
_StoriesList_.pdf |
1.49Мб |
0003 Acoustics of a Muffler.pdf |
84.98Кб |
0005 Transport and Adsorption.pdf |
79.39Кб |
0010 An Electrokinetic Valve in a Microchannel System.pdf |
68.49Кб |
0011 Electroosmotic Flow in Porous Media.pdf |
75.05Кб |
0014 Fuel Cell Bipolar Plate.pdf |
136.59Кб |
0015 Helmholtz Coil.pdf |
146.94Кб |
0019 Microchannel Cell.pdf |
87.30Кб |
001 Sonar Listens to Material Properties.pdf |
56.09Кб |
0022 Non-Isothermal Flow Around a Cooling Device.pdf |
56.96Кб |
0024 Piezoelectric Shear-Actuated Beam.pdf |
83.06Кб |
0025 Porous Reactor with Injection Needle.pdf |
39.15Кб |
0025 Porous Reactor with Injection Needle.swf |
4.81Мб |
0028 The Telegraph Equation.pdf |
67.90Кб |
002 Airbus Evaluates Friction Stir Welding.pdf |
62.19Кб |
0030 Microwave Cancer Therapy.pdf |
101.36Кб |
0031 Thin Film Resistance.pdf |
102.93Кб |
0037 A Piezoceramic Tube.pdf |
86.96Кб |
003 Get Your Free Neutrons at ORNL_WhitePaper.pdf |
534.18Кб |
003 Get Your Free Neutrons at ORNL.pdf |
128.85Кб |
004 Designing the Retina for an Eye Towards the Past_WhitePaper.pdf |
1.23Мб |
004 Designing the Retina for an Eye Towards the Past.pdf |
180.11Кб |
005 Modeling the Fuel Cell_WhitePaper.pdf |
196.46Кб |
005 Modeling the Fuel Cell.pdf |
299.76Кб |
0063 Eigenmodes of a Room.pdf |
122.68Кб |
0066 Monolithic Reactor.pdf |
77.25Кб |
0067 Tubular Reactor.pdf |
85.67Кб |
006 Modeling Optimizes Fuel Cells.pdf |
227.21Кб |
0072 A Transport Problem.pdf |
63.87Кб |
0073 Implementing a Point Source using Poisson Equation.pdf |
87.73Кб |
0078 The Magnetic Field from a Permanent Magnet_v1.pdf |
161.86Кб |
0078 The Magnetic Field from a Permanent Magnet.pdf |
82.45Кб |
0079 Skin Effect in Wire.pdf |
87.30Кб |
007 Micro-robots and airplanes with FEA.pdf |
177.35Кб |
0081 H-bend Waveguide with S-parameters.pdf |
81.05Кб |
0082 The Black-Scholes Equation.pdf |
62.48Кб |
0085 The KdV Equation and Solitons.pdf |
137.82Кб |
008 Always Check Your Results.pdf |
99.66Кб |
0094 Stationary Incompressible Flow over a Backstep.pdf |
93.47Кб |
0097 Flow Past a Cylinder.pdf |
47.25Кб |
009 Electrochemical Machining in Appliance Manufacturing_WhitePaper.pdf |
836.76Кб |
009 Electrochemical Machining in Appliance Manufacturing.pdf |
135.05Кб |
01000 Transient Heat Transfer Effects from a Flapping Wing_Presentation.pdf |
1003.35Кб |
01000 Transient Heat Transfer Effects from a Flapping Wing.pdf |
613.31Кб |
01001 A Domain Decomposition Algorithm for Dissipative or non Dissipative Acoustic Cavities.pdf |
749.59Кб |
01002 Eigenmodes of Photoacoustic T-cells_Presentation.pdf |
1.12Мб |
01002 Eigenmodes of Photoacoustic T-cells.pdf |
1.37Мб |
01003 Ultrasound Propagation in Viscoelastic Material Guides_Presentation.pdf |
6.43Мб |
01003 Ultrasound Propagation in Viscoelastic Material Guides.pdf |
926.03Кб |
01005 FEMLAB as a Front-end for Large-scale Acoustic Modeling Parallelized Wave Basis Solver for the 3D Helmholtz Problems.pdf |
793.09Кб |
01006 Wave Carpet Simulation using Coupled Hydro-elastic FEMLAB Model_Presentation.pdf |
1.67Мб |
01006 Wave Carpet Simulation using Coupled Hydro-elastic FEMLAB Model.pdf |
749.83Кб |
01007 Discrete Projection Methods for Incompressible Fluid Flow Problems and Application to a Fluid-structure Interaction Problem_Presentation.pdf |
2.06Мб |
01007 Discrete Projection Methods for Incompressible Fluid Flow Problems and Application to a Fluid-structure Interaction Problem.pdf |
641.63Кб |
01008 Effiziente Lösung eines Fluid-Struktur-Interaktions-problems in Hydraulischen Dämpfern mit Elastischen Komponenten_Presentation.pdf |
10.20Мб |
01008 Effiziente Lösung eines Fluid-Struktur-Interaktions-problems in Hydraulischen Dämpfern mit Elastischen Komponenten.pdf |
306.01Кб |
01009 Finite Element Models for the Solution of Underwater Acoustics Problems_Presentation.pdf |
4.17Мб |
01009 Finite Element Models for the Solution of Underwater Acoustics Problems.pdf |
785.51Кб |
0100 Shock Tube.pdf |
71.87Кб |
01012 Computer Simulations of Flows in Curved Tubes with Stenosis.pdf |
427.05Кб |
01017 Analysis of Cell Deformation with FEMLAB.pdf |
387.84Кб |
0101 Rock Fracture Flow.pdf |
133.02Кб |
01020 COMSOL Multiphysics Utility in a Medical Device Company. Research and Development_Presentation.pdf |
3.21Мб |
01020 COMSOL Multiphysics Utility in a Medical Device Company. Research and Development.pdf |
303.90Кб |
01023 Electric Field Distribution in Biological Tissues for Various Electrode Configurations - A FEMLAB Study_Presentation.pdf |
3.91Мб |
01023 Electric Field Distribution in Biological Tissues for Various Electrode Configurations - A FEMLAB Study.pdf |
611.24Кб |
01024 Behavior of the 3D Axon when a Squared Voltage Pulse is Applied.pdf |
366.05Кб |
01028 An Integrated Approach for Simulating Bone Adaptation of Shape and Material Properties using FEMLAB with MATLAB and Simulink_Presentation.pdf |
4.07Мб |
01028 An Integrated Approach for Simulating Bone Adaptation of Shape and Material Properties using FEMLAB with MATLAB and Simulink.pdf |
1.01Мб |
01029 Accelerated Virus Capture to Surfaces Inside Physiological Media by using AC Electrokinetic Effects.pdf |
555.25Кб |
0102 Heat Generation in a Disc Brake.pdf |
77.60Кб |
01038 Active Flow Control of a Bluff Body using FEMLAB with MATLAB_Presentation.pdf |
771.68Кб |
01038 Active Flow Control of a Bluff Body using FEMLAB with MATLAB.pdf |
396.52Кб |
0103 Convergence problems at high reaction rates (large source terms).pdf |
79.60Кб |
01042 Zweistufiges Modell zur Untersuchung von Marangoni-Konvektion in Schwingenden Flüssigkeitsstrahlen_Presentation.pdf |
1.07Мб |
01042 Zweistufiges Modell zur Untersuchung von Marangoni-Konvektion in Schwingenden Flüssigkeitsstrahlen.pdf |
416.16Кб |
01043 Characteristics Estimation of Porous Air Bearing_Presentation.pdf |
724.85Кб |
01043 Characteristics Estimation of Porous Air Bearing.pdf |
846.32Кб |
01045 FEMLAB Solution of the Creeping Flow Equations for a Particle in Stagnation Point Flows in the Vicinity of a Wall_Presentation.pdf |
915.89Кб |
01045 FEMLAB Solution of the Creeping Flow Equations for a Particle in Stagnation Point Flows in the Vicinity of a Wall.pdf |
1.19Мб |
01048 Heat Transfer and Marangoni Effect in the Electron Discharge Machining (EDM) Process.pdf |
1.45Мб |
01051 Thermo-Hydro-Mechanical Simulation of a 3D Fractured Porous Rock Preliminary Study of Coupled Matrix-fracture Hydraulics.pdf |
593.52Кб |
01052 Three Dimensional Bioventing Model.pdf |
376.04Кб |
01054 Viscoelastic Deformation of the Alaskan Crust and Upper Mantle Subsequent to Regional Earthquakes.pdf |
3.67Мб |
01059 Can Subsurface Water Flow be Sensed Magnetically. Results from Electrokinetic Volcano Simulations_Presentation.pdf |
2.40Мб |
01059 Can Subsurface Water Flow be Sensed Magnetically. Results from Electrokinetic Volcano Simulations.pdf |
734.36Кб |
0105 A Magnetic Brake Modeled in 2D.pdf |
54.25Кб |
01060 FEMLAB Modeling of Multiple Crack Systems_Presentation.pdf |
1.36Мб |
01060 FEMLAB Modeling of Multiple Crack Systems.pdf |
210.42Кб |
01065 Erdwärmenutzung im Eisenbahntunnelbau – Simulation und Wirtschaftlichkeitsberechnung_Presentation.pdf |
818.29Кб |
01065 Erdwärmenutzung im Eisenbahntunnelbau – Simulation und Wirtschaftlichkeitsberechnung.pdf |
449.04Кб |
01066 FE-modelling of Electrical Borehole Tool Responses.pdf |
884.06Кб |
01067 Rigid Inclusion Rotation in Viscous Shear Flow.pdf |
581.68Кб |
01069 Virtual Homogeneous Isotropic and Real Unhomogeneous Anisotropic Metamaterials.pdf |
1.47Мб |
0106 Thermal Controller, Simulink Simulation.pdf |
53.59Кб |
01073 FEM Characterization of Terahertz Wave on Metal Wire Waveguides_Presentation.pdf |
3.32Мб |
01073 FEM Characterization of Terahertz Wave on Metal Wire Waveguides.pdf |
736.79Кб |
01076 Numerical Studies of a Confocal Resonator Pick-up with FEMLAB.pdf |
1.53Мб |
01077 Finite-element Analysis of Properties in Real and Idealized Photonic Crystal Fibres, Application to Supercontinuum Generation_Presentation.pdf |
2.61Мб |
01077 Finite-element Analysis of Properties in Real and Idealized Photonic Crystal Fibres, Application to Supercontinuum Generation.pdf |
1.14Мб |
01079 Dielectric Properties Characterization of Thin-film Samples by using Scanning Near-Field Microwave Microscope (SNMM) and FEMLAB_Presentation.pdf |
1.09Мб |
01079 Dielectric Properties Characterization of Thin-film Samples by using Scanning Near-Field Microwave Microscope (SNMM) and FEMLAB.pdf |
551.99Кб |
0107 Command line associative geometry.pdf |
190.54Кб |
01080 FEM Study of Nano-structured Surface-relief Optical Data Storage_Presentation.pdf |
2.69Мб |
01080 FEM Study of Nano-structured Surface-relief Optical Data Storage.pdf |
906.57Кб |
01083 Confinement Loss Computations in Photonic Crystal Fibres using a Novel Perfectly Matched Layer Design.pdf |
1012.18Кб |
01092 Diffusion-controlled Redox Cycling at Nanoscale Interdigitated Electrodes_Presentation.pdf |
2.25Мб |
01092 Diffusion-controlled Redox Cycling at Nanoscale Interdigitated Electrodes.pdf |
530.86Кб |
01094 Adaptive Finite Element Method for Image Processing_Presentation.pdf |
1.21Мб |
01094 Adaptive Finite Element Method for Image Processing.pdf |
728.01Кб |
0109 Resistive Heating of a Copper Plate.pdf |
96.25Кб |
010 Reduced Metal Consumption in Electroplating Saves Big Money_WhitePaper.pdf |
1.04Мб |
010 Reduced Metal Consumption in Electroplating Saves Big Money.pdf |
79.71Кб |
01101 Using Advanced FEMLAB Features for SHA-FEM Coupling.pdf |
153.23Кб |
01104 Coupling FEMLAB and modeFRONTIER for Multiobjective Shape Optimization of Convective Wavy Channels_Presentation.pdf |
2.99Мб |
01104 Coupling FEMLAB and modeFRONTIER for Multiobjective Shape Optimization of Convective Wavy Channels.pdf |
4.61Мб |
01105 Ausbreitung von Populationen und Genetischer Information in Landschaften_Presentation.pdf |
1.69Мб |
01105 Ausbreitung von Populationen und Genetischer Information in Landschaften.pdf |
485.55Кб |
0110 Marangoni Convection.pdf |
140.10Кб |
01110 Modeling Thermal Stresses of Copper Interconnects in 3D IC Structures_Presentation.pdf |
1.30Мб |
01110 Modeling Thermal Stresses of Copper Interconnects in 3D IC Structures.pdf |
856.13Кб |
01111 Thermo-mechanical Behavior of Multilayers_Presentation.pdf |
722.17Кб |
01111 Thermo-mechanical Behavior of Multilayers.pdf |
510.17Кб |
01112 Heat Transfer During a CW Laser Crystallisation Process of a Silicon Thin Film on a Glass Substrate.pdf |
558.64Кб |
01115 Carbon Foam Filled with Phase Change Materials for Passive Temperature Management.pdf |
666.50Кб |
01117 Numerical Calculations of Pulsed Laser Heating of Non-isotropic Materials_Presentation.pdf |
5.43Мб |
01117 Numerical Calculations of Pulsed Laser Heating of Non-isotropic Materials.pdf |
638.89Кб |
0111 Simulation of a Microrobot in 2D.pdf |
61.11Кб |
01122 Theoretical Modeling of a Thermophotovoltaic System_Presentation.pdf |
543.92Кб |
01122 Theoretical Modeling of a Thermophotovoltaic System.pdf |
507.51Кб |
01123 Thermal Stability of an HTS AC Armature Winding.pdf |
3.51Мб |
01126 Thermo-mechanical simulation of a laboratory test to determine mechanical properties of steel near the solidus temperature_Presentation.pdf |
1.15Мб |
01126 Thermo-mechanical simulation of a laboratory test to determine mechanical properties of steel near the solidus temperature.pdf |
935.57Кб |
01127 Identification of the Gaussian heat source parameters in the electron beam welding process.pdf |
2.70Мб |
01129 Electromagnetic simulations of Goubau transmission lines with FEMLAB.pdf |
1.83Мб |
0112 Vibrations in a Milk Container.pdf |
61.17Кб |
01131 Dimensioning simultaneous polymerase chain reactions (PCR) in capillary tubes.pdf |
1.05Мб |
01133 Water spreading anaysis on fabrics surfaces.pdf |
814.27Кб |
01137 A study of nonlinear deflection dynamics of a piezoelectric accelerometer.pdf |
3.12Мб |
0113 Solution of the Schrodinger Equation for the Hydrogen Atom.pdf |
69.37Кб |
01141 Automatische Modellgenerierung für Anwendungen aus Mikrosystemtechnik und Mikroelektronik_Presentation.pdf |
1.39Мб |
01141 Automatische Modellgenerierung für Anwendungen aus Mikrosystemtechnik und Mikroelektronik.pdf |
406.76Кб |
01142 Zone sculpting using partitioned electrokinetic injections.pdf |
707.91Кб |
01145 Evaluation of electric impedance spectra for single bio-cells in microfluidic devices using combined FEMLAB and ELDO modeling.pdf |
598.67Кб |
01146 Charakterisierung einer magnetorheologischen Flüssig-keit für die Innenhochdruck-Umformung von Rohren_Presentation.pdf |
858.73Кб |
01146 Charakterisierung einer magnetorheologischen Flüssig-keit für die Innenhochdruck-Umformung von Rohren.pdf |
869.32Кб |
01147 Two-fluid modelling of an abnormal low-pressure glow discharge.pdf |
838.10Кб |
01148 Electrohydrodynamic flow modeling using FEMLAB.pdf |
1004.77Кб |
01149 Effects of plasma rotation and magnetic fields on convection flows in the horizontal burning high intensity discharge lamps_Presentation.pdf |
1.19Мб |
01149 Effects of plasma rotation and magnetic fields on convection flows in the horizontal burning high intensity discharge lamps.pdf |
1.15Мб |
0114 Plot of contour lines on different surface plots in 2D and 3D.pdf |
137.92Кб |
0114 Semiconductor Diode.pdf |
74.20Кб |
01152 Analysis of magnetohydrodynamics GTAW arc behavior.pdf |
356.14Кб |
01157 Application of FEMLAB on supercritical hydrogen components of the high flux isotope reactor cold source_Presentation.pdf |
2.38Мб |
01157 Application of FEMLAB on supercritical hydrogen components of the high flux isotope reactor cold source.pdf |
3.64Мб |
0115 Deformation of a Feeder Clamp.pdf |
125.07Кб |
01165 The use of FEMLAB models to protect a monumental church organ in case of hot air church heating_Presentation.pdf |
5.38Мб |
01165 The use of FEMLAB models to protect a monumental church organ in case of hot air church heating.pdf |
358.08Кб |
01167 FEMLAB simulation of thermoplastics injection-molding_Presentation.pdf |
551.77Кб |
01167 FEMLAB simulation of thermoplastics injection-molding.pdf |
406.83Кб |
01168 Analysis and Modelling of a Low NOx Swirl Burner.pdf |
3.71Мб |
01170 Thermal characterization of heat exchanges in an industrial flameless reactor_Presentation.pdf |
2.42Мб |
01170 Thermal characterization of heat exchanges in an industrial flameless reactor.pdf |
769.35Кб |
01172 A theoretical and experimental analysis of membrane bioreactors behavior in unsteady-state conditions_Presentation.pdf |
362.00Кб |
01172 A theoretical and experimental analysis of membrane bioreactors behavior in unsteady-state conditions.pdf |
420.99Кб |
01175 Zur Kopplung zwischen Transport und chemischen Speziationsrechnungen mit FEMLAB_Presentation.pdf |
214.93Кб |
01175 Zur Kopplung zwischen Transport und chemischen Speziationsrechnungen mit FEMLAB.pdf |
712.90Кб |
01176 Dynamic adsorption with FEMLAB, modeling breakthrough curves of gaseous pollutants through activated carbon beds_Reviced.pdf |
813.71Кб |
01176 Dynamic adsorption with FEMLAB, modeling breakthrough curves of gaseous pollutants through activated carbon beds.pdf |
1.38Мб |
01177 Computations on the coupled heat and mass transfer during fires in bulk materials, coal deposits and waste dumps_Presentation.pdf |
1009.72Кб |
01177 Computations on the coupled heat and mass transfer during fires in bulk materials, coal deposits and waste dumps.pdf |
503.37Кб |
01179 COMSOL simulations using a comprehensive model for gas fluidized-bed reactors_Presentation.pdf |
3.56Мб |
01179 COMSOL simulations using a comprehensive model for gas fluidized-bed reactors.pdf |
349.28Кб |
0117 Diffraction Patterns.pdf |
111.03Кб |
01180 Design by FEMLAB of a complex 3D solid substrate for study of microbial growth kinetics_Presentation.pdf |
352.44Кб |
01180 Design by FEMLAB of a complex 3D solid substrate for study of microbial growth kinetics.pdf |
1.90Мб |
01181 CO2 capture by means of chemical looping combustion.pdf |
2.53Мб |
01183 The influence of air humidity on the interaction between VOC and construction materials.pdf |
726.65Кб |
01186 Aharonov-Bohm interferometry with quantum dots as phase shifters simulations.pdf |
214.57Кб |
0118 Electrostatic Potential Between Two Cylinders.pdf |
147.35Кб |
01190 Double Gate MOSFET modeling.pdf |
432.89Кб |
01192 Modeling transport in silicon nanocrystal structure.pdf |
551.31Кб |
01195 Einsatz von FEMLAB bei der Optimierung der Geometrie eines Hochspannungsimpulstransformators.pdf |
346.00Кб |
01197 3D electromagnetic modelling of a cold crucible for induction electro-processing of materials.pdf |
1.44Мб |
01199 Electromagnetic material properties sensor_Presentation.pdf |
611.36Кб |
01199 Electromagnetic material properties sensor.pdf |
645.11Кб |
0119 Isospectral Drums.pdf |
97.47Кб |
011 Clearing the Air. Life Support for Space Exploration_WhitePaper.pdf |
875.62Кб |
011 Clearing the Air. Life Support for Space Exploration.pdf |
200.65Кб |
01200 Zeitliche Entwicklung der Elektronendichteverteilung in einer linear ausgedehnten Plasmaquelle_Presentation.pdf |
2.06Мб |
01200 Zeitliche Entwicklung der Elektronendichteverteilung in einer linear ausgedehnten Plasmaquelle.pdf |
803.14Кб |
01201 Accurate geometry factor estimation for the four point probe method using COMSOL Multiphysics_Presentation.pdf |
1.69Мб |
01201 Accurate geometry factor estimation for the four point probe method using COMSOL Multiphysics.pdf |
554.69Кб |
01202 Enhanced multipole boundary conditions in FEMLAB_Presentation.pdf |
683.40Кб |
01202 Enhanced multipole boundary conditions in FEMLAB.pdf |
1.02Мб |
01208 Calibrating electric instruments of the Huygens probe and modelling the dielectric properties of the atmosphere and of the surface of titan.pdf |
822.22Кб |
0120 Meshing a thin geometry.pdf |
226.71Кб |
01216 Computations of the earth’s and other solar planets magnetic moments with the aid of a FEMLAB electromagnetic module.pdf |
496.76Кб |
01217 FEMLAB Simulation von Hohlkathodenentladungen zur Erzeugung von extrem ultravioletter (EUV) Strahlung_Presentation.pdf |
1.30Мб |
01217 FEMLAB Simulation von Hohlkathodenentladungen zur Erzeugung von extrem ultravioletter (EUV) Strahlung.pdf |
605.51Кб |
01223 Defining the stress fields for the safety design of the LBT adaptive secondary mirror - FEMLAB and MATLAB set of functions to define and compute shell overstressing_Presentation.pdf |
2.38Мб |
01223 Defining the stress fields for the safety design of the LBT adaptive secondary mirror - FEMLAB and MATLAB set of functions to define and compute shell overstressing.pdf |
835.48Кб |
01228 FEMLAB analysis of open aluminium foam in compression.pdf |
577.00Кб |
0122 Heat Transfer by Free Convection_v1.pdf |
150.54Кб |
0122 Heat Transfer by Free Convection.pdf |
42.35Кб |
01233 FEMLAB as a general tool to investigate the basic laws of physics_Presentation.pdf |
808.30Кб |
01233 FEMLAB as a general tool to investigate the basic laws of physics.pdf |
994.56Кб |
01234 FEMLAB modules for bioengineering education.pdf |
219.46Кб |
01239 Einsatz von FEMLAB in der Elektrotechnikausbildung.pdf |
460.78Кб |
0123 A Tunable MEMS Capacitor.pdf |
106.31Кб |
0124 Induction Currents from Circular Coils_v1.pdf |
172.65Кб |
0124 Induction Currents from Circular Coils.pdf |
90.49Кб |
0125 Integration over arbitrary cross section.pdf |
83.09Кб |
0126 Cold Crucible.pdf |
109.76Кб |
0128 Induced Eddy Currents in a Cylinder Surrounded by a Coil.pdf |
74.84Кб |
0129 Integrated Square-Shaped Spiral Inductor.pdf |
168.45Кб |
012 Spinning Threads of the Tiniest Size Imaginable.pdf |
77.62Кб |
0131 Forces on Parallel Current-Carrying Wires.pdf |
129.05Кб |
01347 Grain Boundary Migration Model in Copper Interconnects_Presentation.pdf |
3.43Мб |
01347 Grain Boundary Migration Model in Copper Interconnects.pdf |
922.35Кб |
0134 Spherical Capacitor.pdf |
110.15Кб |
0137 Conical Antenna.pdf |
80.09Кб |
0139 Array of Magnetic Dipole Antennas.pdf |
73.19Кб |
013 Modeling Metamaterials Leads to Major Breakthrough_WhitePaper.pdf |
233.81Кб |
013 Modeling Metamaterials Leads to Major Breakthrough.pdf |
98.16Кб |
0140 Waveguide Adapter.pdf |
110.50Кб |
0143 Photonic Crystal.pdf |
125.76Кб |
0144 Photonic Micro Prism.pdf |
154.46Кб |
0145 Step Index Fiber.pdf |
96.41Кб |
01487 A Comparison of FDFD and FEM Methods Applied to the Buried Mine Problem_Presentation.pdf |
372.64Кб |
01487 A Comparison of FDFD and FEM Methods Applied to the Buried Mine Problem.pdf |
422.59Кб |
0148 Inductive Heating of Copper Cylinder_v1.pdf |
85.77Кб |
0148 Inductive Heating of Copper Cylinder_v2.pdf |
151.89Кб |
0148 Inductive Heating of Copper Cylinder.pdf |
87.52Кб |
014 The Last Frontier in the Electromagnetics Spectrum_WhitePaper.pdf |
816.51Кб |
014 The Last Frontier in the Electromagnetics Spectrum.pdf |
103.60Кб |
01511 Mapping Local Cavitation Events in High Intensity Ultrasound Fields_Presentation.pdf |
1.28Мб |
01511 Mapping Local Cavitation Events in High Intensity Ultrasound Fields.pdf |
736.34Кб |
01513 Linearmotoren zur Ventilsteuerung von Verbrennungsmotoren.pdf |
1.07Мб |
01516 Analysis of the Electric Field and the Potential Distribution in Cavities Inside Solid Insulating Electrical Materials.pdf |
462.40Кб |
01518 Numerical Modeling of EM Pump Efficiency_Presentation.pdf |
252.52Кб |
01518 Numerical Modeling of EM Pump Efficiency.pdf |
183.47Кб |
015 Simulations Key to Non-Lethal Microwave Weapon.pdf |
74.48Кб |
01605 Surface Acoustic Wave Generation in Wurtzite and Zincblende Piezoelectric Materials.pdf |
447.99Кб |
01611 Thermal Modelling of Metal Surface Texturing by Pulsed Laser.pdf |
277.24Кб |
01619 A Two Dimensional Numerical Model for Multilayer Thin Films Irradiated by a Moving Laser.pdf |
432.71Кб |
01626 Long Period Gratings (LPG) in Photonic Crystal Fibres_Presentation.pdf |
1.43Мб |
01626 Long Period Gratings (LPG) in Photonic Crystal Fibres.pdf |
398.57Кб |
01629 Design of Electro-Optic Bragg Amplitude Modulators_Presentation.pdf |
1.96Мб |
01629 Design of Electro-Optic Bragg Amplitude Modulators.pdf |
726.38Кб |
01631 Hybrid Modeling of a DC Magnetron Plasma Discharge.pdf |
1.85Мб |
01632 Modeling Remote H2 Plasma in a Semiconductor Processing Tool_Presentation.pdf |
2.83Мб |
01632 Modeling Remote H2 Plasma in a Semiconductor Processing Tool.pdf |
1.09Мб |
01636 Use of COMSOL Multiphysics in the Modeling of Ion Source Extraction_Presentation.pdf |
1.28Мб |
01636 Use of COMSOL Multiphysics in the Modeling of Ion Source Extraction.pdf |
2.35Мб |
01638 Using a Linux Cluster for Parallel Simulations of an Active Magnetic Regenerator Refrigerator.pdf |
1.68Мб |
01643 Modeling and Analysis of CaBr2 Hydrolysis_Presentation.pdf |
2.67Мб |
01643 Modeling and Analysis of CaBr2 Hydrolysis.pdf |
744.97Кб |
01659 Towards Modelling Semiconductor Heterojunctions_Presentation.pdf |
816.69Кб |
01659 Towards Modelling Semiconductor Heterojunctions.pdf |
1.03Мб |
01660 Modeling Mechanical Stress in the Silicon Fabrication Process using COMSOL Multiphysics_Presentation.pdf |
742.26Кб |
01660 Modeling Mechanical Stress in the Silicon Fabrication Process using COMSOL Multiphysics.pdf |
1.01Мб |
01662 Silicon-on-Insulator MOS Optical Modulators_Presentation.pdf |
903.41Кб |
01662 Silicon-on-Insulator MOS Optical Modulators.pdf |
519.15Кб |
01683 Finite Element Analysis of Resonant Frequencies in Surface Acoustic Wave (SAW) Devices_Presentation.pdf |
543.33Кб |
01683 Finite Element Analysis of Resonant Frequencies in Surface Acoustic Wave (SAW) Devices.pdf |
1.57Мб |
0169 Variations in Density in Porous Media Flow.pdf |
64.02Кб |
016 Comsol simulates processors for fiber optics communication.pdf |
121.61Кб |
01708 Comparison of Two-Dimensional PEM Fuel Cell Modeling using COMSOL Multiphysics_Presentation.pdf |
1.38Мб |
01708 Comparison of Two-Dimensional PEM Fuel Cell Modeling using COMSOL Multiphysics.pdf |
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0170 Porous Media Flow.pdf |
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0171 Non-Newtonian Flow.pdf |
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0174 Diffusion of Gas Through a Reinforced 3D Membrane.pdf |
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0177 Rising Bubble.pdf |
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01780 Influence of Comsol on the Design and Testing of the High Flux Isotope Reactor HB-4 Cold Source_Presentation.pdf |
5.10Мб |
017 Modeling Optimizes Environmentally Friendly Flameless Furnace_WhitePaper.pdf |
676.15Кб |
017 Modeling Optimizes Environmentally Friendly Flameless Furnace.pdf |
65.21Кб |
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70.50Кб |
0185 Prestressed Bolts in a Tube Connection.pdf |
115.13Кб |
0186 Critical Frequencies for a Rotor.pdf |
51.97Кб |
0188 Vibrations of a Disk Backed by an Air-Filled Cylinder.pdf |
135.79Кб |
018 Fine Tuning for Water Purification_WhitePaper.pdf |
1.82Мб |
018 Fine Tuning for Water Purification.pdf |
142.85Кб |
01908 Modelling Bistable Liquid Crystal Displays using FEMLAB.pdf |
890.37Кб |
01909 COMSOL Multiphysics (FEMLAB) Modelling of Field Enhancements as a Result of Scattering from Metallic Nanostructures.pdf |
1.09Мб |
0190 Stress-Optical Effects with Generalized Plane Strain and in a Photonic Waveguide.pdf |
161.04Кб |
0190 Stress-Optical Effects - with Generalized Plane Strain and in a Photonic Waveguide.pdf |
815.01Кб |
01912 Inverse Methods in Engineering Modelling.pdf |
230.17Кб |
01913 Using COMSOL Multiphysics Capability for Engineering High Q MEMS Resonators.pdf |
4.28Мб |
01914 Visions Realized. Using COMSOL Multiphysics to Prepare Students for the Modern World.pdf |
9.20Мб |
01918 Finite-element modeling of acoustic scattering from 3-D elastic structures.pdf |
19.80Мб |
01920 Electromagnetics at Optical and Microwave Frequencies using COMSOL Multiphysics.pdf |
1.33Мб |
01924 Modellierung der Auslösung von Mikroerdbeben während Flüssigkeitsinjektionen in Bohrlöchern.pdf |
7.02Мб |
01925 Virtuelles Prototyping von Mikrobauteilen und Mikrosystemen durch prädiktive Simulation.pdf |
5.95Мб |
01926 Numerical Methods used in Biomedical Technology.pdf |
8.30Мб |
01927 Elektromagnetische Felder in Materie und an Grenzflächen_Presentation.pdf |
1.18Мб |
01927 Elektromagnetische Felder in Materie und an Grenzflächen.pdf |
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01928 Numerische Konzepte - Mehrgitterverfahren für Simulationsaufgaben.pdf |
1.08Мб |
01929 The use of FEMLAB in the electrochemical education.pdf |
947.04Кб |
01930 Numerical simulation of separation flows with FEMLAB 3.1.pdf |
1.87Мб |
01931 The use of FEMLAB at X(Chi)-Lab for Research and Education_Presentation.pdf |
1.20Мб |
01932 Using COMSOL in Curved Spacetimes_Presentation.pdf |
2.60Мб |
01933 From PDE Toolbox to COMSOL Multiphysics 3.2. Past, Present and Future of Teaching and Research in Thermo-fluids_Presentation.pdf |
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01934 Modeling Light-induced Thermal Effects in Ocular Media by Finite Element Method_Presentation.pdf |
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01935 Thermo-fluid-dynamic evaluation of a microsystem to analyse radioactive solutions.pdf |
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01936 Developing direct methanol fuel cells using FEMLAB as a modeling tool.pdf |
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01938 Finite element models for the solution of underwater acoustics problems_Presentation.pdf |
4.17Мб |
01938 Finite element models for the solution of underwater acoustics problems.pdf |
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01939 High frequency loudspeakers vibro-acoustic modeling.pdf |
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01941 The pianistic touch. FEMLAB modeling of a grand piano action.pdf |
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01942 Finite element modeling of high temperature superconductors.pdf |
2.52Мб |
01943 Numerical study of unsteady flow and heat transfer in corrugated geometries.pdf |
1.01Мб |
01944 Computational Cardiology with COMSOL Multiphysics.pdf |
3.11Мб |
01951 Virtual Prototyping_Presentation.pdf |
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01952 Chemical Engineering Education in the Digital Age_Presentation.pdf |
1.46Мб |
0195 Free Convection in a Water Glass_v1.pdf |
191.14Кб |
0195 Free Convection in a Water Glass.pdf |
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0195 Free Convection in a Water Glass.swf |
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0197 Magnetic Drug Targeting.pdf |
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0198 Liquid Chromatography_v1.pdf |
105.97Кб |
0198 Liquid Chromatography.pdf |
63.35Кб |
019 Taking a Bearing on Quality_WhitePaper.pdf |
230.00Кб |
019 Taking a Bearing on Quality.pdf |
65.92Кб |
02045 The benefit of using FEMLAB 3.1 as a tool in teaching biomechanics and biomedical physics at Uppsala University_Presentation.pdf |
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02045 The benefit of using FEMLAB 3.1 as a tool in teaching biomechanics and biomedical physics at Uppsala University.pdf |
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0207 Thermally Induced Creep Analysis_v1.pdf |
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0207 Thermally Induced Creep Analysis.pdf |
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020 Fighting Fires Without Water.pdf |
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0212 Inductance and Resistance.pdf |
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0217 Electrophoresis, Transport in a Capillary Column.pdf |
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0218 Simulation of Electrochemical Impedance Spectroscopy.pdf |
70.38Кб |
021 Argonne Models Alternate Hydrogen-production Technique_WhitePaper.pdf |
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021 Argonne Models Alternate Hydrogen-production Technique.pdf |
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0232 Flow Between Parallel Plates.pdf |
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0237 Cylindrical Catalyst Pellet.pdf |
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0245 Laminar Static Mixer.pdf |
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0245 Laminar Static Mixer.swf |
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02487 Investigating Photonic Crystals.pdf |
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02499 Thermal-mechanical Analysis of Concrete Structure Exposed to High Temperature_Presentation.pdf |
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02499 Thermal-mechanical Analysis of Concrete Structure Exposed to High Temperature.pdf |
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0249 Boat Reactor for Low Pressure Chemical Vapor Deposition.pdf |
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024 Electrical Signals in a Heart.pdf |
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1.00Мб |
02505 An Optimized Convolutional-Perfectly Matched Layer (C-PML) Absorbing Boundary Condition for Second-order Elastic Wave Equations.pdf |
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0251 Heating of a Flow in a Heat Exchanger Unit Cell.pdf |
59.56Кб |
02553 Modeling of Natural and Combined Natural-Marangoni Convection Flows in a Low Prandtl Number Material Filled in a Square Mold by using COMSOL_Presentation.pdf |
1.06Мб |
02553 Modeling of Natural and Combined Natural-Marangoni Convection Flows in a Low Prandtl Number Material Filled in a Square Mold by using COMSOL.pdf |
4.39Мб |
02583 Design of Three Phase Homopolar Synchrone Reluctance Machine with Double Statoric Winding and Double Massive Rotor.pdf |
667.01Кб |
025 A Close Up on Comsol for Soil-sensor Design.pdf |
72.53Кб |
0265 2D Heat Transfer with Convection.pdf |
80.28Кб |
026 Multiphysics Sparks Innovation in Engine Design_WhitePaper.pdf |
176.61Кб |
026 Multiphysics Sparks Innovation in Engine Design.pdf |
129.66Кб |
02727 Metal Surface Laser Texturing. Multiphysics Modeling of a Single Impact Effect.pdf |
601.89Кб |
02729 Modeling an electromagnet in 2D.pdf |
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0272 Hertzian Contact.pdf |
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02745 Modelling of Channel - Gas Diffusion Layer Systems_Presentation.pdf |
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02745 Modelling of Channel - Gas Diffusion Layer Systems.pdf |
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0279 Electrophoresis in a Channel Junction.pdf |
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027 Electrical Imaging Systems.pdf |
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02859 Modeling of Ion Transport and Heterogeneous Equilibria in Cathodic Protection Systems for Concrete_Presentation.pdf |
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02859 Modeling of Ion Transport and Heterogeneous Equilibria in Cathodic Protection Systems for Concrete.pdf |
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02865 Second Harmonic Generation in Noble Metal Nanoparticles.pdf |
853.63Кб |
02871 Modeling Signal Propagation in Integrated Graded Index Multimode Waveguides with the Finite Element Method.pdf |
1007.40Кб |
02877 Effective Permittivity and Optical Properties of Photonic or Plasmonic Structures in Nanocomposite Glass.pdf |
1.45Мб |
028 A New Approach to Railgun Operation_WhitePaper.pdf |
133.45Кб |
028 A New Approach to Railgun Operation.pdf |
55.57Кб |
02916 Benchmark between CPO (Charged Particle Optics) and COMSOL Multiphysics.pdf |
378.55Кб |
029 A Small Company Solves Global Problems.pdf |
76.48Кб |
0303 Free Convection in a Light Bulb.pdf |
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03096 An Analysis of the Thermal Effects of Focused Laser Beams on Steel_Presentation.pdf |
374.19Кб |
03096 An Analysis of the Thermal Effects of Focused Laser Beams on Steel.pdf |
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03099 COMSOL Modeling and Simulation of a PEM Fuel Cell's Flow Channels_Presentation.pdf |
987.11Кб |
03099 COMSOL Modeling and Simulation of a PEM Fuel Cell's Flow Channels.pdf |
726.88Кб |
030 Multiphysics Electrifies Modeling in Many Scales_WhitePaper.pdf |
2.89Мб |
030 Multiphysics Electrifies Modeling in Many Scales.pdf |
181.31Кб |
03102 Comparison of Darcy's Law, the Brinkman Equation, the Modified Navier-Stokes Equation and the Pure Diffusion Equation in PEM Fuel Cell Modeling_Presentation.pdf |
1.17Мб |
03102 Comparison of Darcy's Law, the Brinkman Equation, the Modified Navier-Stokes Equation and the Pure Diffusion Equation in PEM Fuel Cell Modeling.pdf |
463.58Кб |
03159 Influence of Geometric Disorder on the Band Structure of a Photonic Crystal_Presentation.pdf |
1.46Мб |
03159 Influence of Geometric Disorder on the Band Structure of a Photonic Crystal.pdf |
627.67Кб |
03162 Modeling Effects of Structural Distortions on Air-Core Photonic Band-Gap Fibers.pdf |
699.53Кб |
03165 Optimization of a Photonic Crystal Waveguide Termination using the Geometry Projection Method and COMSOL_Presentation.pdf |
1.22Мб |
03165 Optimization of a Photonic Crystal Waveguide Termination using the Geometry Projection Method and COMSOL.pdf |
1021.18Кб |
03198 Modeling of Low Pressure Magnetron Plasma Discharge.pdf |
494.69Кб |
031 COMSOL Helps Commercialize Molding Technology.pdf |
63.35Кб |
0328 Fuel Cell Stack.pdf |
143.73Кб |
032 Melt it in Mid-air_WhitePaper.pdf |
758.58Кб |
032 Melt it in Mid-air.pdf |
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0330 Inductive Heating of a Steel Billet.pdf |
60.64Кб |
033 Next-generation Filtration Systems.pdf |
69.27Кб |
034 Temperature Dependent Material Properties_WhitePaper.pdf |
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034 Temperature Dependent Material Properties.pdf |
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035 Multiphysics Simulations Help Keep Eyes Healthy_WhitePaper.pdf |
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035 Multiphysics Simulations Help Keep Eyes Healthy.pdf |
71.26Кб |
0361 Fluid-Structure Interaction.pdf |
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0361 Fluid-Structure Interaction.swf |
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0364 Sliding Wedge.pdf |
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036 Multidisciplinary Modeling in Biotech Applications_WhitePaper.pdf |
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036 Multidisciplinary Modeling in Biotech Applications.pdf |
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037 MEMS Biosensor Brings about Disposable DNA Detectors_WhitePaper.pdf |
400.34Кб |
037 MEMS Biosensor Brings about Disposable DNA Detectors.pdf |
105.85Кб |
0382 Continuous Casting.pdf |
100.66Кб |
038 Fast Protein Folding. It is a Wrap.pdf |
84.61Кб |
0399 What to Expect from the COMSOL Conference 2012 Boston.mp4 |
102.09Мб |
039 Joined at the Hip_WhitePaper.pdf |
1.02Мб |
039 Joined at the Hip.pdf |
124.91Кб |
0401 Thank You for Making the COMSOL Conference Milan 2012 our Biggest Event Yet.mp4 |
50.44Мб |
0407 Spinning Gear.pdf |
138.16Кб |
040 Physician Moves Modeling into Patient Care_WhitePaper.pdf |
96.40Кб |
040 Physician Moves Modeling into Patient Care.pdf |
54.59Кб |
0417 Acoustic-Structure Interaction.pdf |
109.79Кб |
0417 Acoustic-Structure Interaction.swf |
1006.33Кб |
0419 COMSOL Conference 2012 Boston - Thank You for a Great Conference.mp4 |
32.14Мб |
041 Modeling Improves Prediction of Semiconductor Lifetimes_WhitePaper.pdf |
728.74Кб |
041 Modeling Improves Prediction of Semiconductor Lifetimes.pdf |
134.95Кб |
042 Finding the One Solution for Multiscale Multiphysics Modeling in Wafer Processing_WhitePaper.pdf |
258.41Кб |
042 Finding the One Solution for Multiscale Multiphysics Modeling in Wafer Processing.pdf |
71.49Кб |
0433 Multiphysics Modeling Solutions for Advanced Vehicle Research and Development.mp4 |
310.76Мб |
0435 COMSOL Multiphysics and The Library of Babel.mp4 |
295.00Мб |
0435 Sloshing Tank.pdf |
99.94Кб |
043 COMSOL Reveals Unknown Effects in Process Instrumentation_WhitePaper.pdf |
475.88Кб |
043 COMSOL Reveals Unknown Effects in Process Instrumentation.pdf |
224.65Кб |
0441 Use of COMSOL Multiphysics to Simulate RF Heating of Passive Conductive Implants in MRI Scanners.mp4 |
413.73Мб |
0445 Conference User Interview with Dominic Groulx from Dalhousie University.mp4 |
37.00Мб |
0447 Conference User Interview with Jeff Crompton from AltaSim Technologies.mp4 |
35.03Мб |
044 Modeling a Copper-deposition System.pdf |
175.02Кб |
0450 Computing Capacitance in a Comb Drive.pdf |
112.74Кб |
0451 Conference User Interview with Bruce Finlayson from University of Washington.mp4 |
43.98Мб |
0452 Copper Layer on Silica Glass.pdf |
76.09Кб |
0453 Conference User Interview with Matthew Christian from US Naval Academy.mp4 |
34.71Мб |
0459 A Look at the COMSOL Conference Boston 2012 Keynotes.mp4 |
10.80Мб |
045 A Model of Direct Thermal Printing.pdf |
78.55Кб |
0460 Modeling Using Electric Shielding.pdf |
95.68Кб |
046 Reaction Engineering Education in the Digital Age_WhitePaper.pdf |
158.67Кб |
046 Reaction Engineering Education in the Digital Age.pdf |
120.90Кб |
0472 Perforated Well.pdf |
242.71Кб |
0474 Phase Change.pdf |
117.53Кб |
0476 Capacitive Pressure Sensor.pdf |
105.80Кб |
0478 Shell Conduction_v1.pdf |
167.95Кб |
0478 Shell Conduction.pdf |
100.40Кб |
047 Simulation of Salt Diffusion in Pork using 3D Imaging.pdf |
24.13Кб |
0482 Deformation of a Thermomechanical Microvalve.pdf |
120.66Кб |
0482 Deformation of a Thermomechanical Microvalve.swf |
2.57Мб |
0483 Biot Poroelasticity.pdf |
134.70Кб |
0485 Electroosmotic Micromixer.pdf |
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0485 Electroosmotic Micromixer.swf |
3.96Мб |
04875 Simulation of Dielectric Barrier Discharge Lamp Coupled to the External Electrical Circuit.pdf |
382.90Кб |
048 Hi-Fi Hearing Aids with Multiphysics Modeling_WhitePaper.pdf |
664.91Кб |
048 Hi-Fi Hearing Aids with Multiphysics Modeling.pdf |
181.39Кб |
0492 Thin-Layer Diffusion.pdf |
96.11Кб |
0493 Heat Transfer in a Thin Plate.pdf |
66.39Кб |
04983 Simulation of Fourth-Order Laterally-Coupled Gratings_Presentation.pdf |
789.60Кб |
04983 Simulation of Fourth-Order Laterally-Coupled Gratings.pdf |
370.29Кб |
04989 Numerical Calculation of Effective Density and Compressibility Tensors in Periodic Porous Media. A Multi-Scale Asymptotic Method_Presentation.pdf |
192.93Кб |
04989 Numerical Calculation of Effective Density and Compressibility Tensors in Periodic Porous Media. A Multi-Scale Asymptotic Method.pdf |
955.23Кб |
0498 Turbulent Residence Time in a Baffled Reactor.pdf |
70.88Кб |
0498 Turbulent Residence Time in a Baffled Reactor.swf |
2.97Мб |
0499 Two-Phase Flow in Porous Media.pdf |
90.84Кб |
049 ArcelorMittal Breaks Down the Physics of Corrosion_WhitePaper.pdf |
386.39Кб |
049 ArcelorMittal Breaks Down the Physics of Corrosion.pdf |
172.15Кб |
05001 A Time Dependent Dielectric Breakdown (TDDB) Model for Field Accelerated Low-K Breakdown Due To Copper Ions_Presentation.pdf |
452.51Кб |
05001 A Time Dependent Dielectric Breakdown (TDDB) Model for Field Accelerated Low-K Breakdown Due To Copper Ions.pdf |
758.68Кб |
0504 Rapid Thermal Annealing in the Semiconductor Manufacturing Industry.pdf |
89.93Кб |
05094 Magneto-Hydrodynamic Numerical Study of DC Electromagnetic Pump for Liquid Metal.pdf |
534.55Кб |
050 A numerical wind tunnel for sail design.pdf |
42.66Кб |
05142 Space-time Formulation for Finite-Element Modeling of Superconductors_Presentation.pdf |
888.22Кб |
05142 Space-time Formulation for Finite-Element Modeling of Superconductors.pdf |
582.34Кб |
0514 Current Density Distribution in a Solid Oxide Fuel Cell.pdf |
81.46Кб |
0514 Current Density Distribution in a Solid Oxide Fuel Cell.swf |
2.42Мб |
05154 Design and Characterization of a Small Volume Reactor for the High Pressure Invacuo Study of Catalytic Surface Reactions_Presentation.pdf |
1.76Мб |
05154 Design and Characterization of a Small Volume Reactor for the High Pressure Invacuo Study of Catalytic Surface Reactions.pdf |
447.17Кб |
051 Simulations Tackle Ever More Complex Problems_WhitePaper.pdf |
165.67Кб |
051 Simulations Tackle Ever More Complex Problems.pdf |
30.77Кб |
05256 Multiphysics Simulation of Thermoelectric Systems. Modeling of Peltier-Cooling and Thermoelectric Generation_Presentation.pdf |
2.95Мб |
05256 Multiphysics Simulation of Thermoelectric Systems. Modeling of Peltier-Cooling and Thermoelectric Generation.pdf |
2.19Мб |
05268 Vertically Emitting Microdisk Lasers_Presentation.pdf |
9.13Мб |
05268 Vertically Emitting Microdisk Lasers.pdf |
2.50Мб |
05286 Modeling of a Dielectric Barrier Discharge Lamp for UV Production_Presentation.pdf |
1.36Мб |
05286 Modeling of a Dielectric Barrier Discharge Lamp for UV Production.pdf |
617.09Кб |
052 Analysis of unique loudspeaker driver possible only with multiphysics modeling_WhitePaper.pdf |
326.88Кб |
052 Analysis of unique loudspeaker driver possible only with multiphysics modeling.pdf |
114.99Кб |
05316 Modeling Polybenzimidazole_Phosphoric Acid Membrane Behaviour in a HTPEM Fuel Cell_Presentation.pdf |
1.15Мб |
05316 Modeling Polybenzimidazole_Phosphoric Acid Membrane Behaviour in a HTPEM Fuel Cell.pdf |
713.74Кб |
05337 Prediction and Optimization of Surface-Enhanced Raman Scattering Geometries using COMSOL Multiphysics_Presentation.pdf |
1.07Мб |
05337 Prediction and Optimization of Surface-Enhanced Raman Scattering Geometries using COMSOL Multiphysics.pdf |
657.45Кб |
05370 Photonic or Plasmonic Structures from Metallic Nanoparticles in a Glass Matrix_Presentation.pdf |
2.56Мб |
05370 Photonic or Plasmonic Structures from Metallic Nanoparticles in a Glass Matrix.pdf |
813.81Кб |
053 Instrumentation Modeling for NASA Next Mars Rover Mission_WhitePaper.pdf |
4.22Мб |
053 Instrumentation Modeling for NASA Next Mars Rover Mission.pdf |
23.07Кб |
05445 Resonances in Tapered Double-Port TEM Waveguides_Presentation.pdf |
537.09Кб |
05445 Resonances in Tapered Double-Port TEM Waveguides.pdf |
726.87Кб |
05457 Calculation of Cable Parameters for Different Cable Shapes_Presentation.pdf |
919.76Кб |
05457 Calculation of Cable Parameters for Different Cable Shapes.pdf |
432.63Кб |
054 University brings PDEs to Life in Undergraduate Education_WhitePaper.pdf |
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054 University brings PDEs to Life in Undergraduate Education.pdf |
80.23Кб |
05568 Modeling Ion Motion in a Miniaturized Ion Mobility Spectrometer.pdf |
674.22Кб |
05586 Numerical Simulation of Si Nanosecond Laser Annealing by COMSOL Multiphysics.pdf |
464.50Кб |
05595 Numerical Modelling of Vortex Induced Vibrations in Submarine Pipelines.pdf |
413.74Кб |
055 Fluid-Structure-Acoustic Interactions_WhitePaper.pdf |
2.33Мб |
055 Fluid-Structure-Acoustic Interactions.pdf |
21.10Кб |
05601 Transient Conjugate Optical-thermal Fields in Thin Films Irradiated by Moving Sources. A Comparison between Back and Front Treatment.pdf |
646.62Кб |
05619 Track Visualisation of Charged Particles in a Dipole Magnetic Field.pdf |
1.22Мб |
05622 Finite Element Models of Elasto-Plastic Deformation in Volcanic Areas.pdf |
295.47Кб |
056 Engineers Advance Skills_WhitePaper.pdf |
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056 Engineers Advance Skills.pdf |
47.75Кб |
057 Rensselaer Polytechnic Institute Puts Comsol to the Test_WhitePaper.pdf |
2.66Мб |
057 Rensselaer Polytechnic Institute Puts Comsol to the Test.pdf |
62.62Кб |
058 Comsol Reveals How to Avoid Very Expensive Modifications to Wastewater Clarifier_WhitePaper.pdf |
254.23Кб |
058 Comsol Reveals How to Avoid Very Expensive Modifications to Wastewater Clarifier.pdf |
127.24Кб |
059 Multiphysics Modeling Studies New Materials that Could Revolutionize Solar Energy_WhitePaper.pdf |
231.32Кб |
059 Multiphysics Modeling Studies New Materials that Could Revolutionize Solar Energy.pdf |
201.89Кб |
0603 Electrokinetic Valve.pdf |
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0603 Electrokinetic Valve.swf |
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060 Interview with Chris Scott from Millipore Designs Solutions.mp3 |
12.68Мб |
0616 Swirl Flow Around a Rotating Disk.pdf |
183.99Кб |
061 Qualifying COMSOL for Nuclear-Safety-Related Procedures_WhitePaper.pdf |
296.23Кб |
061 Qualifying COMSOL for Nuclear-Safety-Related Procedures.pdf |
303.24Кб |
06288 Optimization of Carbon Nanotube Field Emission Arrays_Presentation.pdf |
991.04Кб |
06288 Optimization of Carbon Nanotube Field Emission Arrays.pdf |
286.04Кб |
062 Qualifying COMSOL for Nuclear-Safety-Related Procedures.pdf |
1.35Мб |
06300 Multiphysics Simulation of the Effect of Sensing and Spacer Layers on SAW Velocity_Presentation.pdf |
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06300 Multiphysics Simulation of the Effect of Sensing and Spacer Layers on SAW Velocity.pdf |
213.59Кб |
06309 COMSOL Multiphysics for Efficient Solution of a Transient Reaction-Diffusion System with Fast Reaction.pdf |
273.56Кб |
06336 Parallel Performance Studies for COMSOL Multiphysics Using Scripting and Batch Processing.pdf |
172.66Кб |
06360 Computing Surface Acoustic Wave Dispersion and Band Gaps_Presentation.pdf |
2.62Мб |
06360 Computing Surface Acoustic Wave Dispersion and Band Gaps.pdf |
197.86Кб |
063 Sun-Powered Flight_WhitePaper.pdf |
245.11Кб |
063 Sun-Powered Flight.pdf |
250.45Кб |
0642 Air flow in a Cyclone Separator.swf |
9.80Мб |
06435 The Use of CFD Simulations in Learning Fluid Mechanics at the Undergraduate Level_Presentation.pdf |
926.98Кб |
06435 The Use of CFD Simulations in Learning Fluid Mechanics at the Undergraduate Level.pdf |
30.20Кб |
06447 A Non-isothermal Modeling of a Polymer Electrolyte Membrane Fuel Cell.pdf |
18.83Кб |
064 Reduced Stresses Inside Semiconductor Chips Lead to Higher Reliability_WhitePaper.pdf |
340.27Кб |
064 Reduced Stresses Inside Semiconductor Chips Lead to Higher Reliability.pdf |
496.26Кб |
06531 FE Modeling of Surfaces with Realistic 3D Roughness Roughness Effects in Optics of Plasmonic Nanoantennas.pdf |
186.58Кб |
0657 Buoyant Darcy Flow The Elder Problem.pdf |
208.62Кб |
065 Ugitech optimizes steel casting process using COMSOL Multiphysics_WhitePaper.pdf |
372.28Кб |
065 Ugitech optimizes steel casting process using COMSOL Multiphysics.pdf |
71.86Кб |
06620 COMSOL spice example.pdf |
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0666 Open-Hole Multilateral Well.pdf |
198.80Кб |
066 Simulation Addresses Band-Broadening in HPLC Systems_WhitePaper.pdf |
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066 Simulation Addresses Band-Broadening in HPLC Systems.pdf |
138.01Кб |
06723 Numerical Validation of the Efficiency of Dual-Frequency Radiofrequency Ablation_Presentation.pdf |
448.63Кб |
06723 Numerical Validation of the Efficiency of Dual-Frequency Radiofrequency Ablation.pdf |
122.91Кб |
06741 Finite Element Modeling for the Mechanical Behavior of Silicon Diaphragms Using COMSOL Multiphysics_Presentation.pdf |
499.34Кб |
06741 Finite Element Modeling for the Mechanical Behavior of Silicon Diaphragms Using COMSOL Multiphysics.pdf |
229.39Кб |
067 Simulation of Manufacturing Process of Ceramic Matrix Composites_WhitePaper.pdf |
174.97Кб |
067 Simulation of Manufacturing Process of Ceramic Matrix Composites.pdf |
30.24Кб |
06837 An Investigation of Mesh Moving Methods for Simulating the Deformation of Incompressible Fluid Bodies.pdf |
461.60Кб |
06888 A Study of Laser Doppler Anemometer Using COMSOL Multiphysics_Presentation.pdf |
350.63Кб |
06888 A Study of Laser Doppler Anemometer Using COMSOL Multiphysics.pdf |
263.35Кб |
068 Modeling Helps Batteries Jump on the Train of Environmental Progress_WhitePaper.pdf |
434.94Кб |
068 Modeling Helps Batteries Jump on the Train of Environmental Progress.pdf |
349.79Кб |
06906 Temperature Distribution in High Voltage Dummy Cable_Presentation.pdf |
345.73Кб |
06906 Temperature Distribution in High Voltage Dummy Cable.pdf |
104.55Кб |
06909 An All-Purpose Full-Vectorial Finite Element Model for Arbitrarily Shaped Crossed-Gratings.pdf |
285.88Кб |
0690 MOS Transistor Model.pdf |
98.13Кб |
06915 Study of an Electroacoustic Absorber_Presentation.pdf |
983.16Кб |
06915 Study of an Electroacoustic Absorber.pdf |
874.96Кб |
06972 Multibody Contact Analysis of an Rzeppa CV-Joint_Presentation.pdf |
924.31Кб |
06972 Multibody Contact Analysis of an Rzeppa CV-Joint.pdf |
424.91Кб |
0699 Heating with a Moving Laser.pdf |
87.72Кб |
069 Millipore Designs Solutions for Customers.pdf |
84.89Кб |
0700 An Integro-Partial Differential Equation.pdf |
88.11Кб |
07026 Measuring and Calculation of Positive Corona Currents Using COMSOL Multiphysics_Presentation.pdf |
1.24Мб |
07026 Measuring and Calculation of Positive Corona Currents Using COMSOL Multiphysics.pdf |
524.77Кб |
07041 Modeling of a DBD Reactor for the Treatment of VOC_Presentation.pdf |
352.34Кб |
07041 Modeling of a DBD Reactor for the Treatment of VOC.pdf |
363.53Кб |
07071 TM Wave Propagation in Optical Nanostructures with a Third-Order Nonlinear Response. Modeling and Validation with COMSOL.pdf |
542.76Кб |
070 Analysis of Transient Electric Dipole.pdf |
227.35Кб |
07164 Calculating Power Loss of Contactless Power Transmission Systems with Ferrite Components.pdf |
144.78Кб |
071 Simulating Energy-Tissue Interactions for Improved Patient Outcomes.pdf |
423.75Кб |
07200 Benefits of COMSOL Multiphysics Version 4.pdf |
1.95Мб |
0723 Conical Quantum Dot.pdf |
124.65Кб |
07245 COMSOL Multiphysics Version 4.pdf |
2.22Мб |
0726 Simulation of a Microrobot.pdf |
62.92Кб |
0726 Simulation of a Microrobot.swf |
383.51Кб |
07275 A Study of Optical Sensor Based on Fiber Bragg Grating Using COMSOL Multiphysics_Presentation.pdf |
67.79Кб |
07275 A Study of Optical Sensor Based on Fiber Bragg Grating Using COMSOL Multiphysics.pdf |
156.52Кб |
07278 Streamer Propagation in a Point-to-Plane Geometry_Presentation.pdf |
910.34Кб |
07278 Streamer Propagation in a Point-to-Plane Geometry.pdf |
286.01Кб |
072 Mixed Polymers Form Unique One-Piece Medical Implant.pdf |
480.35Кб |
073 High Performance Computing for the Masses.pdf |
70.52Кб |
074 Designing New Magnet Technology. A Multiphysics Challenge.pdf |
526.08Кб |
07574 COMSOL Assisted Simulation of Laser Engraving_Presentation.pdf |
1.06Мб |
07574 COMSOL Assisted Simulation of Laser Engraving.pdf |
468.28Кб |
075 Multiphysics Modeling in Discharge Lighting.pdf |
946.40Кб |
07675 Drift-Diffusion and Ballistic Transport Modeling in III-Nitride Multiple-QW Light Emitting Structures.pdf |
439.20Кб |
0768 3D slice plot of arbitrary shape.pdf |
151.24Кб |
076 Analysis of Room Acoustics.pdf |
141.17Кб |
077 Microwaving Moondust with Comsol.pdf |
274.90Кб |
07837 2D Axial-Symmetric Model For Fluid Flow And Heat Transfer In The Melting And Resolidification Of A Vertical Cylinder_Presentation.pdf |
946.37Кб |
07837 2D Axial-Symmetric Model For Fluid Flow And Heat Transfer In The Melting And Resolidification Of A Vertical Cylinder.pdf |
188.04Кб |
0786 Where can I purchase COMSOL Multiphysics.pdf |
54.93Кб |
078 Modeling Tools for Formation Evaluation and Reservoir Navigation.pdf |
537.94Кб |
07904 COMSOL Modelling of the Wind Effect on a PV Platform.pdf |
164.21Кб |
07937 Wavebased Micromotor for Plane Motions (3-DoF)_Presentation.pdf |
434.64Кб |
07937 Wavebased Micromotor for Plane Motions (3-DoF).pdf |
418.85Кб |
07970 Exploiting New Features of COMSOL Version 4 on Conjugate Heat Transfer Problems_Presentation.pdf |
987.15Кб |
07970 Exploiting New Features of COMSOL Version 4 on Conjugate Heat Transfer Problems.pdf |
163.39Кб |
079 Cooling of the Largest Magnet in the World at CERN.pdf |
132.81Кб |
08026 A Study of Distributed Feed-Back Fiber Laser Sensor for Aeronautical Applications Using COMSOL Multiphysics.pdf |
241.74Кб |
08075 Super-resolving Properties of Metallodielectric Stacks_Presentation.pdf |
1.06Мб |
08075 Super-resolving Properties of Metallodielectric Stacks.pdf |
289.11Кб |
080 Modeling Finds the Minimum Energy for the Best Weld.pdf |
267.52Кб |
08123 Application of COMSOL to Acoustic Imaging_Presentation.pdf |
2.75Мб |
08123 Application of COMSOL to Acoustic Imaging.pdf |
214.47Кб |
08132 Multiphysics Modeling of Cellular Arrays Using Periodic Minimal Surfaces - A Drug and Gene Delivery Application.pdf |
1.28Мб |
08134 Dual Phononic And Photonic Band Gaps In A Periodic Array Of Pillars Deposited On A Membrane.pdf |
180.00Кб |
08135 Implementation of the Perfectly Matched Layer to Determine the Quality Factor of Axisymmetric Resonators in COMSOL_Presentation.pdf |
795.25Кб |
08135 Implementation of the Perfectly Matched Layer to Determine the Quality Factor of Axisymmetric Resonators in COMSOL.pdf |
1.34Мб |
0816 How do I solve a PDE with space derivatives of order higher than two.pdf |
91.18Кб |
081 Simulation Software Makes Major Contributions to Multiple Aspects of Auto-Part Design Manufacturing.pdf |
259.75Кб |
08288 ComsolGrid A Framework For Performing Large-Scale Parameter Studies Using COMSOL Multiphysics and Berkeley Open Infrastructure for Network Computing (BOINC)_Presentation.pdf |
909.78Кб |
08288 ComsolGrid A Framework For Performing Large-Scale Parameter Studies Using COMSOL Multiphysics and Berkeley Open Infrastructure for Network Computing (BOINC).pdf |
273.43Кб |
0828 Obtaining a Hostid for licensing.pdf |
458.54Кб |
0829 Quadrupole Lens.pdf |
134.92Кб |
082 Excellent Sound in Every Seat in the House.pdf |
204.07Кб |
0830 Handling memory intensive models.pdf |
125.46Кб |
08365 Simulation of Interaction of Low-Temperature Plasma with Immersed Solids.pdf |
197.33Кб |
0838 Can COMSOL Multiphysics import images.pdf |
92.26Кб |
08392 A Flexible Scheme For Numerical Homogenisation In Linear Elasticity.pdf |
443.09Кб |
083 Simulation Helps Develop Better Household Products.pdf |
278.77Кб |
084 Modeling Nuclear Fuel Behavior for Enhanced Reactor Performance and Safety.pdf |
225.72Кб |
0850 Is there an open-boundary condition for electrostatic or magnetostatic simulations.pdf |
70.40Кб |
085 Modeling Thermal Runaway for Safer Lithium Ion Batteries.pdf |
651.38Кб |
0866 What hardware platform do you recommend for COMSOL Multiphysics.pdf |
78.04Кб |
086 Modeling Continually Improves Advanced Materials for Automobiles.pdf |
266.07Кб |
0875 What does degrees of freedom (DOFs) mean in COMSOL Multiphysics.pdf |
73.96Кб |
0878 Should I use the RMS, the peak, or the instantaneous value to specify sources for electromagnetic fields.pdf |
74.72Кб |
087 Nordic Researchers Model Deep Geologic Repository of Nuclear Waste.pdf |
368.20Кб |
08819 Approaches for Fuel Cell Stack Modeling and Simulation with COMSOL Multiphysics.pdf |
226.10Кб |
0881 Electromagnetic coils. Multi-turn without skin effect.pdf |
76.67Кб |
08846 Modeling an Oscillating Water Foil for Hydro-kinetic Power Generator Using COMSOL 3.5a_Presentation.pdf |
1.34Мб |
08846 Modeling an Oscillating Water Foil for Hydro-kinetic Power Generator Using COMSOL 3.5a.pdf |
308.82Кб |
08870 Control Synthesis for Distributed Parameter Systems Modeled by FEM in COMSOL Multiphysics.pdf |
705.24Кб |
088 Comsol Acoustics Module Finite Element Modeling for Infrasound Propagation.pdf |
296.61Кб |
08948 Demonstration of a Novel Surface Plasmon Based Interferometer with COMSOL_Presentation.pdf |
2.42Мб |
08948 Demonstration of a Novel Surface Plasmon Based Interferometer with COMSOL.pdf |
346.48Кб |
08954 Modeling of a Helical Coil Heat Exchanger for Sodium Alanate Based on-board Hydrogen Storage System_Presentation.pdf |
501.72Кб |
08954 Modeling of a Helical Coil Heat Exchanger for Sodium Alanate Based on-board Hydrogen Storage System.pdf |
307.97Кб |
0895 Can COMSOL Multiphysics handle left-handed materials.pdf |
96.56Кб |
08990 Modeling of an Optical Black Hole with True Gaussian Beam Incidence.pdf |
1.28Мб |
089 Wind Turbine Noise Reduction.pdf |
2.19Мб |
0902 Thin film approximation, contact resistance.pdf |
1.09Мб |
0903 Could not obtain license for COMSOL Multiphysics GUI.pdf |
118.09Кб |
0905 Smoothed step transitions in COMSOL Multiphysics.pdf |
323.07Кб |
0909 Can COMSOL Multiphysics be used for TEM mode analysis.pdf |
141.71Кб |
090 Battery Simulation Propels Electric Cars in China.pdf |
785.08Кб |
0913 Computing Time and Space Integrals.pdf |
202.10Кб |
0916 Electromagnetic coils. Multi-turn with fixed total current and skin effect.pdf |
194.29Кб |
091 Lithium-Ion Battery Simulation for Greener Ford Vehicles.pdf |
3.67Мб |
0923 Installation of COMSOL Multiphysics with hardware lock (dongle).pdf |
65.14Кб |
092 The Thermal Management of Li-ion Battery Packs.pdf |
1.23Мб |
09329 Prism Coupling of Light in Optical Waveguides.pdf |
214.47Кб |
0933 Troubleshooting graphics adapter problems.pdf |
156.61Кб |
09352 Analysis and Design of Electromagnetic Pump_Presentation.pdf |
464.69Кб |
09352 Analysis and Design of Electromagnetic Pump.pdf |
244.91Кб |
0935 Data import.pdf |
192.75Кб |
0939 Can COMSOL Multiphysics handle polar, spherical, and cylindrical coordinates. And how is this done.pdf |
120.42Кб |
0945 Chemical Vapor Deposition of GaAs.pdf |
161.70Кб |
09464 Numerical Model For Rocking Of Mono-Pile In A Porous Seabed_Presentation.pdf |
466.91Кб |
09464 Numerical Model For Rocking Of Mono-Pile In A Porous Seabed.pdf |
145.02Кб |
0947 License manager error. TCP port number.pdf |
76.87Кб |
09516 Microsoft Technical Computing - The Advancement of Parallelism.pdf |
3.85Мб |
09519 Modeling Light Diffraction Using the Finite Element COMSOL.pdf |
2.30Мб |
0951 How do I calculate the capacitance matrix of a multiconductor system.pdf |
251.42Кб |
0952 Avoiding negative concentrations.pdf |
156.42Кб |
09537 Microsoft Technical Computing.pdf |
10.52Мб |
0953 Error message. Singular Matrix.pdf |
74.49Кб |
0955 Optimization.pdf |
53.33Кб |
0955 Propagation of a 3D Gaussian Beam Laser Pulse.pdf |
188.88Кб |
09567 Windows HPC Server 2008 R2 Goals and Overview.pdf |
4.77Мб |
0956 Second Harmonic Generation of a Gaussian Beam.pdf |
151.59Кб |
0963 Turbulent Flow around a Tractor Trailer.swf |
3.20Мб |
0964 Error message. Failed to find a solution. No convergence.pdf |
54.55Кб |
0966 Background and Theory References on Equation-Based Finite Element Analysis Used in COMSOL Multiphysics.pdf |
466.69Кб |
0968 Error message. FLEXnet Licensing error-103.pdf |
73.71Кб |
0970 Deformed meshes tips for success.pdf |
268.69Кб |
0970 Induced Eddy Currents in a Metal Plate.pdf |
139.36Кб |
0972 RF-Heated Hot Wall Furnace for Semiconductor Processing.pdf |
155.20Кб |
0973 My flux calculation seems wrong.pdf |
32.89Кб |
0976 Forced Turbulent Convection Cooling of a Hot Plate.pdf |
49.36Кб |
0980 How can I run COMSOL Multiphysics computations in batch mode.pdf |
177.67Кб |
0981 Electrical Signals in a Heart.pdf |
148.58Кб |
0982 Axisymmetric plot swept to 3D.pdf |
309.50Кб |
0983 Error message Internal Error in Geometry Decomposition in 3_5a.pdf |
73.98Кб |
0983 Terminal Falling Velocity of a Sand Grain.pdf |
52.32Кб |
09840 Surface Plasmon Polaritons Photonic Device Design and All-optical Modulation.pdf |
2.38Мб |
0986 Error messages, general.pdf |
81.00Кб |
0987 3D Fluid-Structure Interaction Simulation of an Obstacle in a Fluid Channel.pdf |
136.55Кб |
0987 MATLAB compatibility.pdf |
62.70Кб |
0989 Stresses in the Soil Surrounding a Traffic Tunnel.pdf |
139.62Кб |
0990 Inductor in an Amplifier Circuit.pdf |
209.10Кб |
1_backward_global_constraint.mph |
77.82Кб |
1_forward.mph |
77.23Кб |
10005 Fabry-Perot Cavity.pdf |
53.43Кб |
10011 Molecular Flow in an Ion-Implant Vacuum System.pdf |
77.14Кб |
1001 Running COMSOL in parallel on clusters.pdf |
113.27Кб |
10032 Plasmonic Wire Grating.pdf |
51.59Кб |
1003 Plotting the mesh together with the solution.pdf |
212.69Кб |
1004 Resolving the Skin Depth.pdf |
247.49Кб |
1009 How do I model materials with gain or losses.pdf |
64.78Кб |
1010 Error. System matrix is zero.pdf |
70.25Кб |
1014 Error message. java xcb_xlib.c 52 xcb_xlib_unlock. Assertion c-xlib_lock failed.pdf |
75.25Кб |
1016 License borrowing.pdf |
218.28Кб |
1017 Error. Fatal exception occurred. Program will exit.pdf |
65.58Кб |
10185 Magnetic Lens.pdf |
85.25Кб |
10188 Secondary Current Distribution in a Zinc Electrowinning Cell.pdf |
56.14Кб |
1018 Error. UnsatisfiedLinkError. Cannot handle TLS data.pdf |
16.34Кб |
10212 Electrode Growth Next to an Insulator.pdf |
82.57Кб |
10215 Isotropic Compression Using Cam-Clay Model.pdf |
68.22Кб |
10218 Harmonic Content of the Power Deposition into a Dual Frequency Capacitively Coupled Plasma.pdf |
94.18Кб |
1022 Updating the COMSOL License Manager.pdf |
45.75Кб |
1025 Level Set method for two-phase flow and how does it compare with the Volume of Fluid (VOF) method.pdf |
41.57Кб |
10299 Modeling of a 3D Inductor.pdf |
117.29Кб |
1030 Error. Out of memory.pdf |
47.54Кб |
10314 Introduction to the Stuctural Mechanics Module.pdf |
114.46Кб |
1031 Flux through interior boundaries.pdf |
442.74Кб |
10332 Mie scattering, Radar Cross Section Calculation of a PEC Sphere.pdf |
65.77Кб |
1033 Error. 2058 Failed to connect to SolidWorks.pdf |
29.27Кб |
1035 Rubber band selection displays gray box in Windows Vista.pdf |
39.09Кб |
10368 Liquid Cooled Lithium Ion Battery Pack.pdf |
55.29Кб |
1036 Error 9040 Type NullPointerException.pdf |
97.24Кб |
1037 Error. Timeout waiting for client.pdf |
15.05Кб |
1038 Using symmetries in COMSOL Multiphysics_v1.pdf |
115.74Кб |
1038 Using symmetries in COMSOL Multiphysics.pdf |
34.64Кб |
1039 A declared function in COMSOL Multiphysics model seems to give wrong answer.pdf |
65.20Кб |
10407 Transonic Flow in a Sajben Diffuser.pdf |
170.40Кб |
1042 Tips and Tricks, COMSOL News 2009.pdf |
994.99Кб |
1043 Equilibrium reactions in Reaction Engineering Lab.pdf |
63.49Кб |
10440 Concrete Beam with Reinforcement Bars.pdf |
95.20Кб |
1044 Issue with the CAD Import patch installation.pdf |
19.10Кб |
1045 Error. 9040 ClassCastException.pdf |
17.89Кб |
1048 Error 9040 Type IllegalArgumentException.pdf |
78.49Кб |
1050 Error 2058 Failed to connect to Inventor.pdf |
103.60Кб |
10512 Dipolar Microwave Plasma Source.pdf |
67.34Кб |
1051 Incident field with arbitrary angle.pdf |
184.16Кб |
1052 Troubleshooting MATLAB interface problems.pdf |
207.69Кб |
10536 Acoustic Muffler with Thermoacoustic Impedance Lumping.pdf |
95.05Кб |
1053 Error 9040 Fatal Error NoClassDefFounderror.pdf |
78.67Кб |
1055 MATLAB 2009b interface problems.pdf |
19.06Кб |
10569 Assembly with a Hinge_v1.pdf |
52.55Кб |
10569 Assembly with a Hinge.pdf |
51.65Кб |
1056 Warning New constraint force nodes detected.pdf |
62.75Кб |
1057 Error. LMCOMSOL exited with status 0 signal = 17.pdf |
15.63Кб |
1058 Combining network license files (license.dat).pdf |
38.09Кб |
1059 Error. Licensed number of users already reached.pdf |
29.86Кб |
1060 Error. 9160 Property. linemethod.pdf |
16.05Кб |
10626 Isoelectric Separation.pdf |
48.69Кб |
1062 BDF vs Generalized Alpha time discretization.pdf |
78.96Кб |
1064 Missing or incomplete model documentation.pdf |
101.11Кб |
10653 Particle Tracing in a Quadrupole Mass Spectrometer.pdf |
66.77Кб |
1068 I cannot start COMSOL 4.pdf |
88.82Кб |
1069 Unexpected error when opening a model file.pdf |
59.54Кб |
1070 Failed to load library.pdf |
73.58Кб |
1071 Cannot start COMSOL 40 with MATLAB on Windows.pdf |
87.46Кб |
1073 Evaluation of particle tracing failed.pdf |
57.00Кб |
1074 Error 1095 Failed to load model.pdf |
111.52Кб |
1077 COMSOL Installation Companion.pdf |
86.87Кб |
1078 Problems running a classkit license (CKL).pdf |
58.92Кб |
1079 Error. An error occurred while automatically activating bundle.pdf |
18.24Кб |
1080 Backward compatibility of COMSOL 4_1.pdf |
88.08Кб |
10824 Balanced Armature Receiver Motor.pdf |
105.40Кб |
1082 Error message File could not be opened while importing a CATIA V5 file.pdf |
77.56Кб |
1083 Error message An error has occurred. See the log file C_Users.pdf |
79.31Кб |
1084 Error message Assertion failure.pdf |
60.55Кб |
1085 Error message File contains no model.pdf |
108.13Кб |
1086 Installing COMSOL 4 on Linux.pdf |
151.39Кб |
10873 Current Distribution and Magnetic Fields in Complex Structures Using Comsol Multiphysics.pdf |
295.39Кб |
1087 Failed to create animation.pdf |
67.65Кб |
1089 Error Internal error in geometry decomposition.pdf |
200.89Кб |
1091 Error message No CAPE-OPEN property package.pdf |
66.59Кб |
1092 LiveLink for MATLAB I run out of memory or simulations take more and more time to run.pdf |
78.90Кб |
1093 MATLAB function calls fail after installing a new MATLAB version.pdf |
71.41Кб |
1094 GLIBCXX_3.4.9 not found error message when calling an external MATLAB function.pdf |
12.75Кб |
1095 Error Cannot open native file.pdf |
82.60Кб |
1096 COMSOL and multithreading.pdf |
104.37Кб |
1098 Uploading files to the COMSOL ftp site.pdf |
20.16Кб |
1099 Manual handling of geometric entity numbers for selections.pdf |
254.34Кб |
1100 Transport of Concentrated Species a tutorial.pdf |
221.44Кб |
1101 Time derivatives in boundary conditions.pdf |
166.35Кб |
1102 Improve the stability of your contact model.pdf |
220.20Кб |
1103 Frequency-dependent meshing.pdf |
401.32Кб |
1104 Stabilization schemes in COMSOL.pdf |
80.35Кб |
11056 Microwave Plasma Simulation Applied to a Double ICP Jet Reactor_Presentation.pdf |
738.58Кб |
11056 Microwave Plasma Simulation Applied to a Double ICP Jet Reactor.pdf |
846.65Кб |
1105 Difference between Solute Transport and Species Transport in Porous Media.pdf |
74.01Кб |
1106 Installer halts before finished when using the automated (silent) installation option.pdf |
16.25Кб |
11073 On the Simulation of the Lightning Strikes to Complex Grounded Structures.pdf |
160.22Кб |
11077 Drift of Space Charge Produced by Glow Corona During Thunderstorms_Presentation.pdf |
762.67Кб |
11077 Drift of Space Charge Produced by Glow Corona During Thunderstorms.pdf |
88.32Кб |
11083 Simulation of Novel Groundwater Lowering Technique using Arbitrary Lagrangian-Eulerian Method_Presentation.pdf |
585.40Кб |
11083 Simulation of Novel Groundwater Lowering Technique using Arbitrary Lagrangian-Eulerian Method.pdf |
177.66Кб |
1108 Error message Expected End of Central Directory Record Signature.pdf |
60.12Кб |
1111 Updating the COMSOL model library.pdf |
115.60Кб |
11122 Multiphysics Process Simulation of the Electromagnetic-Supported Laser Beam Welding_Presentation.pdf |
948.93Кб |
11122 Multiphysics Process Simulation of the Electromagnetic-Supported Laser Beam Welding.pdf |
567.73Кб |
1112 How to recover your work from an interrupted simulation.pdf |
58.66Кб |
11137 Numerical Homogenization in Multi-scale Models of Musculoskeletal Mineralized Tissues.pdf |
291.88Кб |
1113 COMSOL does not start with the latest MATLAB version.pdf |
72.98Кб |
1114 Command-line switches to the COMSOL command.pdf |
53.66Кб |
1115 Oblique incidence with Floquet boundary conditions.pdf |
62.94Кб |
1116 Selecting hardware for clusters.pdf |
24.86Кб |
1118 Resolving time-dependent waves.pdf |
590.98Кб |
1119 Missing Material Library for Batteries and Fuel Cells module.pdf |
13.50Кб |
11208 Sheet Metal Forming.pdf |
69.54Кб |
1120 Problems on Mac OS X 10.7 Lion.pdf |
23.37Кб |
1121 Error. Failed to connect to Inventor.pdf |
19.41Кб |
1122 Error. Failed to connect to SolidWorks.pdf |
17.14Кб |
11236 Effect of Gas Flow Rate and Gas Composition in Ar_CH4 Inductively Coupled Plasmas_Presentation.pdf |
803.06Кб |
11236 Effect of Gas Flow Rate and Gas Composition in Ar_CH4 Inductively Coupled Plasmas.pdf |
342.92Кб |
1123 Error. Failed to connect to AutoCAD.pdf |
13.48Кб |
11250 Numerical Modeling of Cold Crucible Induction Melting_Presentation.pdf |
1.04Мб |
11250 Numerical Modeling of Cold Crucible Induction Melting.pdf |
260.49Кб |
1125 Error. Vendorstring is not correct.pdf |
18.60Кб |
1126 Error. Error contacting the update server.pdf |
20.90Кб |
1127 Improving convergence in nonlinear time dependent models.pdf |
829.72Кб |
1128 Thermoacoustics interface yields unexpected results.pdf |
63.95Кб |
1129 Transparency does not work.pdf |
14.26Кб |
1130 Model Library Update for Linux NSL users.pdf |
16.12Кб |
1132 I cannot change language when using a trial license.pdf |
15.48Кб |
1133 LiveLink for Creo Parametric fails to connect to the latest version of Creo Parametric.pdf |
15.11Кб |
1134 Warning. MUMPS allocation factor increased.pdf |
15.39Кб |
1139 Error. MATLAB installation root is invalid.pdf |
17.71Кб |
11400 Computing the Ion Energy Distribution Function.pdf |
67.50Кб |
1140 COMSOL Multiphysics crashes silently.pdf |
539.92Кб |
1141 CAD LiveLink not available under Geometry--LiveLink Interfaces_v1.pdf |
16.16Кб |
1141 CAD LiveLink not available under Geometry--LiveLink Interfaces.pdf |
20.63Кб |
1141 How can I see who is currently using a floating network license.pdf |
23.26Кб |
1144 The COMSOL Desktop graphics window becomes scrambled after upgrading to Mac OS X 10.8 Mountain Lion.pdf |
23.71Кб |
1145 Why do I receive License error -9 after upgrading to Mac OS X 10.8 Mountain Lion.pdf |
839.31Кб |
1147 The COMSOL 43a tab is not available in the Microsoft Excel ribbon.pdf |
67.28Кб |
1149 Error downloading file. Connection refused.pdf |
14.50Кб |
1150 Failed to compute elastoplastic strain variables.pdf |
29.32Кб |
1151 The COMSOL Ribbon is not Visible in Microsoft Excel 2007 after Installing the COMSOL 4.3a Update 1 for LiveLink for Excel.pdf |
68.69Кб |
1152 Surface roughness for turbulent flow.pdf |
8.54Кб |
1153 The meshing tutorials are missing after installing COMSOL 431_161.pdf |
8.70Кб |
1154 Support for SolidWorks 2013.pdf |
7.67Кб |
1155 Error. Failed to connect to Inventor.pdf |
7.51Кб |
11716 Using Comsol 4.1 to Build a Transient Model of a Drift Tube Ion Mobility Spectrometer with Improved Performance.pdf |
352.16Кб |
11718 Ion Cyclotron Motion.pdf |
68.37Кб |
11745 Benchmark Model of a Capacitively Coupled Plasma.pdf |
69.93Кб |
11781 Computational Fluid Dynamics Simulations of an Innovative System of Wind Power Generation.pdf |
200.08Кб |
11907 3D Model for the Dynamic Simulation of SOFC Cathodes.pdf |
98.23Кб |
12009 Particle Tracing Module, General Introduction_v1.pdf |
103.35Кб |
12009 Particle Tracing Module, General Introduction.pdf |
108.07Кб |
120113 University of Michigan Refines Solar Car Design.pdf |
771.30Кб |
120123 Around the Clock Solar Power.pdf |
639.46Кб |
120123 Solar Heating in Industrial Scales.pdf |
6.28Кб |
12015 Evanescent Mode Cylindrical Cavity Filter.pdf |
92.92Кб |
12039 Quadrupole Mass Filter.pdf |
83.83Кб |
120626 SAWs are also used to Manipulate and Mix.flv |
13.02Мб |
120626 SAWs are also used to Manipulate and Mix.pdf |
1.46Мб |
120629 Improving Ultrasound Imaging Systems by Directing Sound Waves.pdf |
184.91Кб |
120719 A Closer Look at the Physics Involved in Lava Lamps.pdf |
22.62Кб |
120719 Lava Lamp.gif |
3.98Мб |
120730 What is Piezoelectricity.pdf |
205.05Кб |
120802 How to Create High-Resolution Images of COMSOL Models for Articles and Papers.pdf |
414.27Кб |
120814 Life is Multiphysics.pdf |
8.87Кб |
121101 Vacuum System Simulations Webinar and Videos.pdf |
7.28Кб |
12317 Laser Heating.pdf |
80.29Кб |
12347 Dielectric Slab Waveguide.pdf |
65.81Кб |
12349 Transient Modeling of a Coaxial Cable.pdf |
77.86Кб |
12371 Cooling of an Injection Mold.pdf |
100.21Кб |
12407 Fresnel Equations.pdf |
75.90Кб |
12415 Optical Scattering off of a Gold Nanosphere.pdf |
97.30Кб |
12437 Magnetic Damping of Vibrating Conducting Solids.pdf |
60.10Кб |
12607 Necking of an Elastoplastic Metal Bar.pdf |
62.73Кб |
12617 Thermophoresis.pdf |
66.18Кб |
12621 Contact Impedance Comparison.pdf |
105.43Кб |
12665 Nanorods.pdf |
72.57Кб |
12669 Pressurized Orthotropic Container.pdf |
68.77Кб |
12687 Mutual Inductance and Induced Currents in a Multi-Turn Coil.pdf |
60.11Кб |
12691 Compression of an Elastoplastic Pipe.pdf |
79.70Кб |
12705 Contaminant Plume in Office Environment.pdf |
137.52Кб |
12707 Gate Valve in Pipe Branch.pdf |
102.67Кб |
12729 Beam Splitter.pdf |
70.75Кб |
12735 Magnetically Permeable Sphere in a Static Magnetic Field.pdf |
64.25Кб |
12737 Waveguide Iris Bandpass Filter.pdf |
62.37Кб |
13191 Numerical Modeling of Powder Flow During Coaxial Laser Direct Metal Deposition and Comparison Between Ti-6Al-4V Alloy and 316L Stainless Steel_Abstract.pdf |
17.72Кб |
13191 Numerical Modeling of Powder Flow During Coaxial Laser Direct Metal Deposition and Comparison Between Ti-6Al-4V Alloy and 316L Stainless Steel_Presentation.pdf |
462.61Кб |
13191 Numerical Modeling of Powder Flow During Coaxial Laser Direct Metal Deposition and Comparison Between Ti-6Al-4V Alloy and 316L Stainless Steel.pdf |
150.76Кб |
1377 Bending Pipe.pdf |
91.04Кб |
1378 Oscillating Droplet.pdf |
74.36Кб |
1412 Benchmark Electromagnetic Simulation of a Coil Using Infinite Elements.pdf |
113.03Кб |
14169 Use of COMSOL Multiphysics to Simulate RF Heating of Passive Conductive Implants in MRI Scanners_Presentation.pdf |
2.78Мб |
14169 Use of COMSOL Multiphysics to Simulate RF Heating of Passive Conductive Implants in MRI Scanners.pdf |
3.91Кб |
1416 Focusing Ions with a Quadrupole Lens.pdf |
137.95Кб |
1418 Lossy Circular Waveguide.pdf |
426.30Кб |
1424 Microwave Oven.pdf |
98.18Кб |
1424 Microwave Oven.swf |
2.84Мб |
1434 Gecko Foot.pdf |
603.87Кб |
1445 Inkjet Nozzle Level Set_v1.pdf |
146.24Кб |
1445 Inkjet Nozzle Level Set.pdf |
37.19Кб |
1445 Inkjet Nozzle Level Set.swf |
931.61Кб |
1448 Natural Convection Cooling of a Thermos.pdf |
116.38Кб |
1477 Piezoacoustic Transducer.pdf |
98.55Кб |
14825 Placing a finite element model into an electrical circuit in COMSOL 4.1.pdf |
60.20Кб |
1492 Solidification of a Liquid Metal Droplet Impinging on a Cold Surface_Presentation.pdf |
1.01Мб |
1492 Solidification of a Liquid Metal Droplet Impinging on a Cold Surface.pdf |
538.65Кб |
1492 Solidification of a Molten Aluminum Droplet on a Cold Surface.swf |
826.34Кб |
1497 Magnetic Field in a Magnetic Levitation Train.swf |
1.19Мб |
1826 Self-contact in a Gear Stick Rubber Boot Seal.swf |
1.59Мб |
1840 Joule Heating in a MEMS Device.pdf |
128.49Кб |
1843 Muffler with Perforates.pdf |
99.34Кб |
1863 Coaxial to Waveguide Coupling.pdf |
169.03Кб |
1879 Turbulent Flow Through a Shell-and-Tube Heat Exchanger.pdf |
93.66Кб |
1994 Droplet Breakup in a T-Junction.swf |
2.94Мб |
2_flowint.mph |
880.19Кб |
2014 Simulation of a Magnetic Brake.pdf |
131.58Кб |
2023 The Electromagnetic Fields from a Railgun.swf |
767.44Кб |
2122 Simulating the Moving Parts of a Generator.pdf |
182.67Кб |
2122 Simulating the Moving Parts of a Generator.swf |
2.34Мб |
2129 SAW Gas Sensor.pdf |
97.63Кб |
2132 Ultrasound Scattering Off a Cylinder.pdf |
198.99Кб |
2132 Ultrasound Scattering Off a Cylinder.pdf |
493.65Кб |
2139 The Two-Term Boltzmann Equation.pdf |
120.77Кб |
2141 Stationary Incompressible Flow over a Backstep using Argyris Elements.pdf |
55.42Кб |
2152 Modeling Nonisothermal Flow with Gravity Volume Forces.pdf |
136.83Кб |
2160 Flow in a Bubble Column Reactor.pdf |
90.68Кб |
2161 Two-Phase Flow Modeling of a Dense Suspension.pdf |
181.12Кб |
2174 Convective Cooling of a Potcore Inductor.pdf |
180.33Кб |
2190 Absorbed Radiation (SAR) in the Human Brain.pdf |
180.40Кб |
2192 Microstrip on a Printed Circuit Board.pdf |
231.31Кб |
2197 Plastic Deformation During the Expansion of a Biomedical Stent.pdf |
68.33Кб |
2197 Plastic Deformation During the Expansion of a Biomedical Stent.swf |
3.85Мб |
2198 Snap Hook.pdf |
80.68Кб |
2198 Snap Hook.swf |
1.20Мб |
2199 Sheet Metal Forming by a Spherical Punch.pdf |
53.61Кб |
2202 Structural and Fatigue Analyses of a Shaft with a Fillet.pdf |
32.90Кб |
2203 Flexible and Smooth Strip Footing on a Stratum of ClayFlexible and Smooth Strip Footing on a Stratum of Clay.pdf |
83.96Кб |
2205 Heat Generation in a Vibrating Structure.pdf |
107.28Кб |
2246 Fully-coupled Physics with Joule Heating, CFD and Chemical Reactions.pdf |
120.12Кб |
2312 Loudspeaker Driver in a Vented Enclosure.pdf |
188.05Кб |
24249 Parameter names not recognized in Inlet Release Time Range.pdf |
15.95Кб |
2d_axisym_coil.mph |
922.34Кб |
3_flowint_timeint.mph |
881.20Кб |
3459 Mie Scattering off Plasmonic Nanoparticle and Radar Cross-Section Computations.pdf |
145.52Кб |
3861 Heat Transfer and Steam Reforming in a Reactor.pdf |
122.11Кб |
3969 Two Phase Fluid-Structure Interaction.swf |
6.80Мб |
3972 Boiling Water.pdf |
60.51Кб |
3972 Boiling Water.swf |
813.41Кб |
4_stop_condition.mph |
617.84Кб |
4101 MRI Bird-Cage Coil.pdf |
137.19Кб |
4104 Contact Analysis of a Valve Cap.swf |
438.64Кб |
4356 Optimizing a Flywheel Profile.pdf |
79.79Кб |
4386 Fluid-Structure Interaction in Aluminum Extrusion.pdf |
83.04Кб |
4398 Turbulent Two-Phase Flow Benchmark.pdf |
95.68Кб |
4434 Cooling of a Circuit Board through Forced Convection.pdf |
190.30Кб |
4473 Waveguide Optimization.pdf |
51.53Кб |
4485 Viscoelastic Structural Damper.pdf |
165.60Кб |
4491 Stress Relaxation of a Viscoelastic Tube.pdf |
83.21Кб |
4650 Jet Instability - Moving Mesh and Level Set Models.pdf |
78.93Кб |
5922 CFD Module, General Introduction_v1.pdf |
64.63Кб |
5922 CFD Module, General Introduction (v4.3)_v2.pdf |
63.06Кб |
5922 CFD Module, General Introduction (v4.3).pdf |
66.41Кб |
6_2D_to_3D_Flow.mph |
1.19Мб |
6063 Nonlinear Magnetostrictive Transducer.pdf |
91.43Кб |
6078 RF Heating.pdf |
78.64Кб |
6126 Modeling of an RF Coil.pdf |
146.76Кб |
8481 Spherically Symmetric Transport.pdf |
123.12Кб |
8550 Mass Transport Analysis of a High Temperature PEM Fuel Cell_v1.pdf |
62.03Кб |
8550 Mass Transport Analysis of a High Temperature PEM Fuel Cell.pdf |
47.38Кб |
8559 Laminar Flow in a Baffled Stirred Mixer.pdf |
254.25Кб |
8565 Airflow Over an Ahmed Body.pdf |
92.76Кб |
8610 Periodic Boundary Condition.pdf |
66.56Кб |
8613 Radar Cross Section.pdf |
125.88Кб |
8625 Oxygen Boltzmann Analysis.pdf |
183.21Кб |
8640 DC Glow Discharge.pdf |
117.07Кб |
8658 Thermal Plasma.pdf |
153.64Кб |
8661 3D Model of an ICP Reactor with Argon Chemistry.pdf |
185.84Кб |
9435 1D Isothermal Nickel-Metal Hydride Battery.pdf |
56.02Кб |
9636 Geoelectrics - Forward Problem and Sensitivity.pdf |
85.39Кб |
9663 Surface Chemistry Tutorial.pdf |
142.05Кб |
9702 Triaxial Test.pdf |
173.05Кб |
9720 Discharge and Self-Discharge of a Lead-Acid Battery.pdf |
69.43Кб |
9747 Deep Excavation.pdf |
141.79Кб |
9759 Block Verification.pdf |
58.89Кб |
9981 Tutorial Model of a Lithium-Ion Battery.pdf |
54.32Кб |
9984 Primary Current Distribution in a Lead-Acid Battery Grid Electrode.pdf |
53.30Кб |
ac_fuel_cell.mph |
2.33Мб |
ac_fuel_cell.mph |
161.30Кб |
ac_fuel_cell.mph |
143.54Кб |
ac_fuel_cell.mph |
168.96Кб |
ac_fuel_cell.pdf |
307.95Кб |
ac_fuel_cell.ppt |
353.00Кб |
Accuracy Tests for Comsol and Delaunay Meshes.pdf |
352.78Кб |
acdc.cold_crucible.pdf |
222.12Кб |
acdc.eddy_currents.pdf |
207.18Кб |
acdc.electric_shielding.pdf |
150.60Кб |
acdc.helmholtz_coil.pdf |
153.24Кб |
acdc.inductor_in_circuit.pdf |
185.30Кб |
acdc.one_sided_magnet.pdf |
260.85Кб |
acdc.parallel_wires.pdf |
100.71Кб |
acdc.permanent_magnet.pdf |
174.61Кб |
acdc.quadrupole_lens.pdf |
216.08Кб |
aco.vented_loudspeaker_enclosure.pdf |
440.79Кб |
acoustic_structure_parameters.txt |
337б |
acoustic_structure_sbs.pdf |
549.38Кб |
acoustic_structure.mph |
1.59Мб |
acoustic_structure.mph |
1.47Мб |
acoustic_structure.mph |
1.08Мб |
acoustic_structure.mph |
2.43Мб |
acoustic_structure.mph |
8.21Мб |
acoustic_structure.pdf |
281.87Кб |
add_more_objects.m |
1.19Кб |
adsorption_sbs.pdf |
553.46Кб |
adsorption.mph |
909.93Кб |
adsorption.pdf |
382.26Кб |
Advanced Topics in COMSOL Multiphysics_2005.ppt |
18.25Мб |
ahmed_body.mph |
16.99Мб |
ahmed_body.mph |
113.53Мб |
ahmed_body.mph |
113.76Мб |
ahmed_body.mph |
61.36Мб |
ahmed_body.mphbin |
58.13Кб |
ahmed_body.mphbin |
58.13Кб |
ahmed_body.mphbin |
58.13Кб |
ahmed_body.mphbin |
58.13Кб |
aluminum_extrusion_fsi_sbs.pdf |
614.82Кб |
aluminum_extrusion_fsi.mph |
15.10Мб |
aluminum_extrusion_fsi.mph |
9.92Мб |
aluminum_extrusion_fsi.mph |
22.71Мб |
aluminum_extrusion_fsi.mph |
22.86Мб |
aluminum_extrusion_fsi.mphbin |
295.13Кб |
aluminum_extrusion_fsi.mphbin |
354.40Кб |
aluminum_extrusion_fsi.mphbin |
354.40Кб |
aluminum_extrusion_fsi.mphbin |
354.40Кб |
aluminum_extrusion_fsi.pdf |
417.60Кб |
amplifier_and_inductor_nocircuit.mph |
296.30Кб |
amplifier_and_inductor_sbs.pdf |
473.37Кб |
amplifier_and_inductor.mph |
9.94Мб |
amplifier_and_inductor.pdf |
240.64Кб |
Ar_xsecs.txt |
4.27Кб |
Ar_xsecs.txt |
4.27Кб |
Ar_xsecs.txt |
4.27Кб |
Ar_xsecs.txt |
4.27Кб |
Ar_xsecs.txt |
4.27Кб |
Ar_xsecs.txt |
4.27Кб |
Ar_xsecs.txt |
4.27Кб |
Ar_xsecs.txt |
4.27Кб |
Ar_xsecs.txt |
4.27Кб |
Ar_xsecs.txt |
4.27Кб |
Ar_xsecs.txt |
4.27Кб |
Ar_xsecs.txt |
4.27Кб |
Ar_xsecs.txt |
4.27Кб |
Ar_xsecs.txt |
4.27Кб |
argon_3d_icp_geom.mphbin |
524.46Кб |
argon_3d_icp_geom.mphbin |
524.46Кб |
argon_3d_icp_geom.mphbin |
0б |
argon_3d_icp.mph |
87.93Мб |
argon_3d_icp.mph |
81.31Мб |
argon_3d_icp.mph |
22.14Мб |
argon_3d_icp.mph |
19.43Мб |
argon_3d_icp.mph |
20.79Мб |
argon_3d_icp.mphbin |
524.46Кб |
argon_3d_icp.mphbin |
524.46Кб |
argon_3d_icp.mphbin |
524.46Кб |
associated_geometry_simple.m |
2.38Кб |
associated_geometry.m |
2.35Кб |
automotive_muffler_sbs.pdf |
393.89Кб |
automotive_muffler.mph |
58.65Мб |
automotive_muffler.mph |
48.68Мб |
automotive_muffler.mph |
46.48Мб |
automotive_muffler.mph |
46.48Мб |
automotive_muffler.pdf |
203.91Кб |
Axisymmetric_plot_swept_to_3D_35a.pdf |
1.27Мб |
backstep_argyris_sbs.pdf |
283.87Кб |
backstep_argyris.mph |
194.72Кб |
backstep_argyris.pdf |
120.23Кб |
backstep_geom_sequence.mph |
22.31Кб |
backstep_quad.mph |
926.25Кб |
backstep_sbs.pdf |
608.40Кб |
backstep.mph |
381.92Кб |
backstep.mph |
199.17Кб |
backstep.mph |
1.76Мб |
backstep.mph |
1.73Мб |
backstep.mph |
1.17Мб |
backstep.mph |
2.11Мб |
backstep.pdf |
271.55Кб |
backstep.ppt |
601.00Кб |
baffled_mixer.mph |
56.93Мб |
baffled_mixer.mph |
56.91Мб |
baffled_mixer.mphbin |
291.98Кб |
baffled_mixer.mphbin |
291.98Кб |
balanced_armature_receiver_motor_42a.mph |
21.22Мб |
balanced_armature_receiver_motor_42a.pptx |
440.72Кб |
balanced_armature_receiver_motor.mph |
21.87Мб |
balanced_armature_receiver_motor.pptx |
429.78Кб |
bar_necking.mph |
2.35Мб |
bar_necking.mph |
2.34Мб |
beam_splitter.mph |
10.72Мб |
beam_splitter.mph |
10.74Мб |
bending_pipe_exp-data_Re300e3.txt |
283б |
bending_pipe_sbs.pdf |
380.07Кб |
bending_pipe.mph |
1.42Мб |
bending_pipe.pdf |
241.91Кб |
bfc.ht_pem.pdf |
357.49Кб |
billet_43a.mph |
12.01Мб |
billet_43a.ppt |
1.60Мб |
billet_quarter_43a.mph |
30.36Мб |
biomedical_stent_sbs.pdf |
391.14Кб |
biomedical_stent.mph |
112.71Мб |
biomedical_stent.mph |
124.40Мб |
biomedical_stent.mph |
123.45Мб |
biomedical_stent.mphbin |
509.20Кб |
biomedical_stent.mphbin |
230.43Кб |
biomedical_stent.mphbin |
96.02Кб |
biomedical_stent.pdf |
253.38Кб |
biot_poroelasticity_sbs.pdf |
732.26Кб |
biot_poroelasticity.mph |
1.51Мб |
biot_poroelasticity.mph |
3.05Мб |
biot_poroelasticity.mph |
2.96Мб |
biot_poroelasticity.mph |
3.16Мб |
biot_poroelasticity.pdf |
572.17Кб |
bipolar_plate_sbs.pdf |
850.70Кб |
bipolar_plate.mph |
1.98Мб |
bipolar_plate.mph |
419.59Кб |
bipolar_plate.mph |
317.48Кб |
bipolar_plate.mph |
628.08Кб |
bipolar_plate.pdf |
550.82Кб |
birdcage_reset.mph |
1.93Мб |
birdcage.mph |
12.53Мб |
black_scholes_put_sbs.pdf |
191.12Кб |
black_scholes_put.mph |
77.86Кб |
black_scholes_put.mph |
55.58Кб |
black_scholes_put.mph |
56.19Кб |
black_scholes_put.mph |
62.63Кб |
black_scholes_put.pdf |
133.80Кб |
block_verification.mph |
859.07Кб |
block_verification.mph |
843.70Кб |
block_verification.mph |
933.85Кб |
block_verification.mph |
945.43Кб |
boat_reactor_sbs.pdf |
589.52Кб |
boat_reactor.mph |
411.22Кб |
boat_reactor.mph |
190.49Кб |
boat_reactor.mph |
192.68Кб |
boat_reactor.mph |
2.65Мб |
boat_reactor.mph |
2.21Мб |
boat_reactor.mph |
2.60Мб |
boat_reactor.pdf |
380.32Кб |
boiling_water_sbs.pdf |
660.49Кб |
boiling_water.mph |
88.13Мб |
boiling_water.mph |
138.64Мб |
boiling_water.mph |
138.39Мб |
boiling_water.mph |
138.83Мб |
boiling_water.mph |
138.84Мб |
boiling_water.pdf |
463.59Кб |
boltzmann_oxygen.mph |
197.32Кб |
boltzmann_oxygen.mph |
196.01Кб |
bracket_basic.mph |
148.43Кб |
bracket_basic.mph |
80.90Кб |
bracket_basic.mph |
81.51Кб |
bracket_basic.mph |
81.87Кб |
bracket_contact.mph |
484.92Кб |
bracket_contact.mph |
487.44Кб |
bracket_contact.mph |
1.20Мб |
bracket_contact.mph |
1.21Мб |
bracket_eigenfrequency.mph |
5.21Мб |
bracket_eigenfrequency.mph |
4.35Мб |
bracket_eigenfrequency.mph |
7.83Мб |
bracket_eigenfrequency.mph |
7.84Мб |
bracket_frequency.mph |
46.15Мб |
bracket_frequency.mph |
43.40Мб |
bracket_frequency.mph |
51.29Мб |
bracket_frequency.mph |
51.33Мб |
bracket_initial_strain.mph |
1.35Мб |
bracket_initial_strain.mph |
881.37Кб |
bracket_initial_strain.mph |
2.29Мб |
bracket_initial_strain.mph |
2.30Мб |
bracket_linear_buckling.mph |
851.21Кб |
bracket_linear_buckling.mph |
566.33Кб |
bracket_linear_buckling.mph |
1.67Мб |
bracket_linear_buckling.mph |
1.68Мб |
bracket_parametric.mph |
2.24Мб |
bracket_parametric.mph |
1.92Мб |
bracket_parametric.mph |
3.12Мб |
bracket_parametric.mph |
3.13Мб |
bracket_pin.mphbin |
62.98Кб |
bracket_pin.mphbin |
50.91Кб |
bracket_pin.mphbin |
50.91Кб |
bracket_pin.mphbin |
50.91Кб |
bracket_plasticity.mph |
8.27Мб |
bracket_plasticity.mph |
6.80Мб |
bracket_plasticity.mph |
8.49Мб |
bracket_plasticity.mph |
8.49Мб |
bracket_rigid_connector.mph |
980.56Кб |
bracket_rigid_connector.mph |
689.02Кб |
bracket_rigid_connector.mph |
1.74Мб |
bracket_rigid_connector.mph |
1.74Мб |
bracket_shell.mph |
334.24Кб |
bracket_shell.mph |
237.28Кб |
bracket_shell.mph |
424.79Кб |
bracket_shell.mph |
428.72Кб |
bracket_shell.mphbin |
55.94Кб |
bracket_shell.mphbin |
55.94Кб |
bracket_shell.mphbin |
55.94Кб |
bracket_shell.mphbin |
55.94Кб |
bracket_spring.mph |
984.49Кб |
bracket_spring.mph |
695.49Кб |
bracket_spring.mph |
1.74Мб |
bracket_spring.mph |
1.75Мб |
bracket_static.mph |
960.33Кб |
bracket_static.mph |
672.65Кб |
bracket_static.mph |
1.71Мб |
bracket_static.mph |
1.72Мб |
bracket_symmetry.mphbin |
271.93Кб |
bracket_symmetry.mphbin |
136.17Кб |
bracket_symmetry.mphbin |
136.17Кб |
bracket_symmetry.mphbin |
136.17Кб |
bracket_thermal.mph |
1013.78Кб |
bracket_thermal.mph |
724.38Кб |
bracket_thermal.mph |
1.79Мб |
bracket_thermal.mph |
1.80Мб |
bracket_transient.mph |
39.38Мб |
bracket_transient.mph |
37.66Мб |
bracket_transient.mph |
44.45Мб |
bracket_transient.mph |
43.01Мб |
bracket.mphbin |
732.04Кб |
bracket.mphbin |
248.27Кб |
bracket.mphbin |
248.27Кб |
bracket.mphbin |
248.27Кб |
brake_disc_parameters.txt |
982б |
brake_disc_parameters.txt |
982б |
brake_disc_parameters.txt |
982б |
brake_disc_sbs.pdf |
557.17Кб |
brake_disc_variables.txt |
555б |
brake_disc_variables.txt |
555б |
brake_disc_variables.txt |
555б |
brake_disc.mph |
4.01Мб |
brake_disc.mph |
15.01Мб |
brake_disc.mph |
15.05Мб |
brake_disc.mph |
16.73Мб |
brake_disc.pdf |
314.46Кб |
bubble_column_sbs.pdf |
689.27Кб |
bubble_column.mph |
3.75Мб |
bubble_column.mph |
8.71Мб |
bubble_column.mph |
7.54Мб |
bubble_column.pdf |
446.86Кб |
buoyancy_darcy_elder_sbs.pdf |
1.04Мб |
buoyancy_darcy_elder.mph |
1.30Мб |
buoyancy_darcy_elder.mph |
10.33Мб |
buoyancy_darcy_elder.mph |
10.33Мб |
buoyancy_darcy_elder.pdf |
676.98Кб |
capacitance.mph |
962.01Кб |
capacitive_pressure_sensor.mp4 |
55.02Мб |
capacitive_pressure_sensor.mph |
8.01Мб |
capacitive_pressure_sensor.mphbin |
108.67Кб |
capacitive_pressure_sensor.wmv |
57.16Мб |
capacitor_tunable_sbs.pdf |
444.38Кб |
capacitor_tunable.mph |
3.42Мб |
capacitor_tunable.mph |
558.39Кб |
capacitor_tunable.mph |
503.51Кб |
capacitor_tunable.mph |
1.64Мб |
capacitor_tunable.pdf |
197.18Кб |
CAPE-OPEN Interfaces in COMSOL Multiphysics Version 4.pdf |
1.03Мб |
capillary_electrophoresis_1.mph |
1.02Мб |
capillary_electrophoresis_2.mph |
1.81Мб |
capillary_electrophoresis_sbs.pdf |
558.40Кб |
capillary_electrophoresis.pdf |
345.57Кб |
catalyst_pellet.mph |
387.04Кб |
catalyst_pellet.pdf |
456.00Кб |
catalytic_reaction_ignition.pdf |
389.22Кб |
catalytic_reactor_ignition.mph |
399.05Кб |
ccp_benchmark.mph |
4.96Мб |
CFD_Module_4.2.pdf |
490.56Кб |
CFD_Module_4.2.ppt |
1.93Мб |
CFD_Module_4.2.pptx |
1.62Мб |
CFD_Module_4.2a.pdf |
786.30Кб |
CFD_Module_4.2a.ppt |
1.88Мб |
CFD_Module_4.2a.pptx |
1.66Мб |
CFD_Module_4.3.pdf |
782.17Кб |
CFD_Module_4.3.pptx |
1.64Мб |
cfd.ahmed_body.pdf |
350.13Кб |
cfd.backstep.pdf |
170.63Кб |
cfd.baffled_mixer.pdf |
178.83Кб |
cfd.bubble_column.pdf |
313.90Кб |
cfd.dense_suspension.pdf |
538.85Кб |
cfd.gravity_tutorial.pdf |
161.95Кб |
cfd.non_newtonian_flow.pdf |
197.45Кб |
cfd.turbulent_backstep.pdf |
234.47Кб |
chem.boat_reactor.pdf |
275.50Кб |
chem.liquid_chromatography_1.pdf |
168.78Кб |
Chemical Reaction Engineering Simulations.pdf |
4.27Мб |
cluster_install_41_win.pdf |
681.14Кб |
cluster_install41_linux_ppt.pdf |
695.42Кб |
coaxial_cable_transient.mph |
9.32Мб |
coaxial_cable_transient.mph |
9.65Мб |
coaxial_cable_transient.mph |
9.51Мб |
coaxial_waveguide_coupling_sbs.pdf |
216.43Кб |
coaxial_waveguide_coupling.mph |
2.25Мб |
coaxial_waveguide_coupling.mph |
1.44Мб |
coaxial_waveguide_coupling.mph |
1.45Мб |
coaxial_waveguide_coupling.pdf |
119.94Кб |
coil_above_plate_sbs.pdf |
491.60Кб |
coil_above_plate.mph |
2.72Мб |
coil_above_plate.mph |
901.07Кб |
coil_above_plate.mph |
848.82Кб |
coil_above_plate.mph |
978.01Кб |
coil_above_plate.pdf |
346.71Кб |
coil_eddy_currents_sbs.pdf |
918.45Кб |
coil_eddy_currents.mph |
420.67Кб |
coil_eddy_currents.mph |
117.79Кб |
coil_eddy_currents.mph |
98.22Кб |
coil_eddy_currents.mph |
148.00Кб |
coil_eddy_currents.pdf |
103.78Кб |
coil_inductance_sbs.pdf |
536.50Кб |
coil_inductance.mph |
2.56Мб |
coil_inductance.pdf |
208.17Кб |
coil_infinite_elements_sbs.pdf |
414.07Кб |
coil_infinite_elements.mph |
872.53Кб |
coil_infinite_elements.pdf |
282.80Кб |
coil_surface_current_density.mph |
156.89Кб |
coil_volume_current_density.mph |
187.42Кб |
coil.mphbin |
120.82Кб |
cold_crucible.mph |
1.53Мб |
cold_crucible.mph |
1.52Мб |
cold_crucible.mph |
1.55Мб |
cold_crucible.mph |
1.37Мб |
cold_crucible.mph |
3.48Мб |
cold_crucible.mph |
3.49Мб |
cold_crucible.mphbin |
82.16Кб |
cold_crucible.mphbin |
82.16Кб |
cold_crucible.mphbin |
82.16Кб |
cold_crucible.mphbin |
82.16Кб |
cold_crucible.mphbin |
82.16Кб |
cold_crucible.mphbin |
82.16Кб |
cold_water_glass_41.mph |
5.21Мб |
cold_water_glass_41.pdf |
176.09Кб |
cold_water_glass.mph |
10.45Мб |
cold_water_glass.mph |
9.34Мб |
cold_water_glass.mph |
14.49Мб |
cold_water_glass.mph |
14.66Мб |
cold_water_glass.mph |
14.66Мб |
cold_water_glass.pdf |
434.10Кб |
comb_drive_2d_sbs.pdf |
936.96Кб |
comb_drive_2d.mph |
6.80Мб |
comb_drive_2d.pdf |
423.36Кб |
comb_drive_3d_sbs.pdf |
499.28Кб |
comb_drive_3d.mph |
1.33Мб |
comb_drive_3d.pdf |
214.88Кб |
compressed_elastoplastic_pipe_stress_strain.txt |
201б |
compressed_elastoplastic_pipe_stress_strain.txt |
201б |
compressed_elastoplastic_pipe.mph |
12.51Мб |
compressed_elastoplastic_pipe.mph |
12.51Мб |
Computational Approaches to Improving Room Heating and Cooling for Energy Efficiency in Buildings_2011.pdf |
11.31Мб |
comsol_3.5.0.608-p3_linux.patch |
5.57Кб |
comsol_3.5.0.608-p3_mac.dmg |
66.47Кб |
comsol_3.5.0.608-p3_win.exe |
148.00Кб |
comsol_4.3.1.161_llinv_win.exe |
519.99Кб |
comsol_4.3.1.161_llsw_win.exe |
608.35Кб |
COMSOL_InstallationAndOperationsGuide.pdf |
1.51Мб |
comsol_multiphysics_basics.ppt |
10.45Мб |
comsol_multiphysics_reaction.ppt |
15.72Мб |
COMSOL_spice_example.pdf |
710.54Кб |
comsol4_terminology_usl.pdf |
32.80Кб |
COMSOL Intensive Training Course 4.0a.pdf |
14.71Мб |
Comsol Multiphysics 3.4 для решения задач гидродинамики и теплообмена в химической технологии.pdf |
2.70Мб |
COMSOL Multiphysics 4_1 Release Notes.pdf |
681.60Кб |
COMSOL Multiphysics Instruction Manual.pdf |
5.43Мб |
Comsol Multiphysics Product Booklet.pdf |
19.93Мб |
COMSOL News 2008.pdf |
2.69Мб |
COMSOL News 2009.pdf |
5.85Мб |
COMSOL News 2010.pdf |
12.08Мб |
COMSOL News 2011.pdf |
10.84Мб |
COMSOL News 2012.pdf |
9.82Мб |
concrete_beam.mph |
17.35Мб |
concrete_beam.mph |
19.41Мб |
conical_antenna_circuit.mph |
32.23Мб |
conical_antenna_sbs.pdf |
658.34Кб |
conical_antenna.mph |
15.20Мб |
conical_antenna.mph |
35.54Мб |
conical_antenna.mph |
35.43Мб |
conical_antenna.mph |
35.83Мб |
conical_antenna.mphbin |
3.10Кб |
conical_antenna.mphbin |
3.10Кб |
conical_antenna.mphbin |
3.10Кб |
conical_antenna.pdf |
366.46Кб |
conical_quantum_dot_sbs.pdf |
346.14Кб |
conical_quantum_dot.mph |
132.72Кб |
conical_quantum_dot.mph |
69.96Кб |
conical_quantum_dot.mph |
66.96Кб |
conical_quantum_dot.pdf |
246.22Кб |
contact_impedance_comparison.mph |
329.62Кб |
ContaminantPlume_GEOM_SEQUENCE.mph |
29.13Кб |
ContaminantPlume_GEOM.mphbin |
109.10Кб |
ContaminantPlume.mph |
7.95Мб |
ContaminantPlume.pptx |
4.20Мб |
continuous_casting_parameters.txt |
831б |
continuous_casting_parameters.txt |
831б |
continuous_casting_parameters.txt |
831б |
continuous_casting_parameters.txt |
831б |
continuous_casting_sbs.pdf |
640.41Кб |
continuous_casting_variables.txt |
612б |
continuous_casting_variables.txt |
612б |
continuous_casting_variables.txt |
612б |
continuous_casting_variables.txt |
612б |
continuous_casting.mph |
1.53Мб |
continuous_casting.mph |
18.48Мб |
continuous_casting.mph |
18.47Мб |
continuous_casting.mph |
17.00Мб |
continuous_casting.mph |
19.50Мб |
continuous_casting.pdf |
451.17Кб |
contours_on_3D_surfaces_41.mph |
555.98Кб |
copper_layer_meshed.mph |
2.29Мб |
copper_layer_sbs.pdf |
229.32Кб |
copper_layer.mph |
477.75Кб |
copper_layer.mph |
917.92Кб |
copper_layer.mph |
924.90Кб |
copper_layer.mph |
921.80Кб |
copper_layer.mph |
893.30Кб |
copper_layer.mph |
962.25Кб |
copper_layer.pdf |
170.28Кб |
coupled_vibration_sbs.pdf |
461.52Кб |
coupled_vibration.mph |
2.61Мб |
coupled_vibration.pdf |
156.54Кб |
coupled_vibrations_acsh.mph |
11.09Мб |
coupled_vibrations_acsh.mph |
15.19Мб |
coupled_vibrations_acsh.mph |
16.10Мб |
coupled_vibrations.mph |
10.85Мб |
coupled_vibrations.mph |
14.79Мб |
coupled_vibrations.mph |
15.79Мб |
crucible_sbs.pdf |
556.42Кб |
crucible.mph |
1.57Мб |
crucible.pdf |
235.74Кб |
cylinder_flow_sbs.pdf |
371.54Кб |
cylinder_flow.mph |
26.59Мб |
cylinder_flow.mph |
12.42Мб |
cylinder_flow.mph |
12.46Мб |
cylinder_flow.mph |
125.05Мб |
cylinder_flow.mph |
124.46Мб |
cylinder_flow.mph |
125.50Мб |
cylinder_flow.mph |
125.48Мб |
cylinder_flow.pdf |
160.88Кб |
cylindrical_cavity_filter_evanescent.mph |
32.00Мб |
darcy_3d.mph |
610.18Кб |
darcy_3d.pdf |
441.00Кб |
deep_excavation.mph |
4.71Мб |
dense_suspension_parameters.txt |
532б |
dense_suspension_parameters.txt |
532б |
dense_suspension_parameters.txt |
532б |
dense_suspension_parameters.txt |
532б |
dense_suspension_sbs.pdf |
801.17Кб |
dense_suspension_variables.txt |
402б |
dense_suspension_variables.txt |
402б |
dense_suspension_variables.txt |
402б |
dense_suspension.mph |
2.32Мб |
dense_suspension.mph |
2.71Мб |
dense_suspension.mph |
2.73Мб |
dense_suspension.mph |
12.75Мб |
dense_suspension.mph |
12.45Мб |
dense_suspension.pdf |
652.41Кб |
dielectric_scattering_parametric.mph |
1.69Мб |
dielectric_slab_waveguide.mph |
644.79Кб |
diffraction_patterns_sbs.pdf |
282.15Кб |
diffraction_patterns.mph |
459.98Кб |
diffraction_patterns.mph |
707.14Кб |
diffraction_patterns.mph |
571.46Кб |
diffraction_patterns.mph |
763.95Кб |
diffraction_patterns.pdf |
169.90Кб |
dipolar_ecr_source.mph |
15.58Мб |
dipolar_ecr_source.mph |
14.93Мб |
dipole_array_sbs.pdf |
309.98Кб |
dipole_array.mph |
473.48Кб |
dipole_array.pdf |
144.20Кб |
Direct and Iterative Solvers.pdf |
370.22Кб |
domain_selection_llmatlab.pptx |
1.24Мб |
driven_with_tuning_capacitors_and_pickup_coil.mph |
2.85Мб |
driven_with_tuning_capacitors_Lumped.mph |
13.09Мб |
driven_with_tuning_capacitors_SPICE.mph |
13.09Мб |
driven.mph |
12.85Мб |
eddy_currents_3d_sbs.pdf |
705.01Кб |
eddy_currents_3d.mph |
1.88Мб |
eddy_currents_3d.pdf |
328.77Кб |
eddy_currents.mph |
2.33Мб |
eddy_currents.mph |
3.15Мб |
eigenmodes_of_room_sbs.pdf |
423.39Кб |
eigenmodes_of_room.mph |
2.30Мб |
eigenmodes_of_room.mph |
2.60Мб |
eigenmodes_of_room.mph |
2.88Мб |
eigenmodes_of_room.mph |
3.54Мб |
eigenmodes_of_room.mphbin |
415.35Кб |
eigenmodes_of_room.mphbin |
415.35Кб |
eigenmodes_of_room.mphbin |
415.35Кб |
eigenmodes_of_room.pdf |
187.80Кб |
electric_shielding.mph |
1.05Мб |
electric_shielding.mph |
1.06Мб |
electric_shielding.mph |
1.06Мб |
electric_shielding.mph |
764.47Кб |
electric_shielding.mph |
3.31Мб |
electrode_insulator_growth.mph |
684.61Кб |
electrokinetic_valve_2d.mph |
1.63Мб |
electrokinetic_valve_2d.pdf |
531.73Кб |
electrokinetic_valve_3d_sbs.pdf |
903.80Кб |
electrokinetic_valve_3d.mph |
6.66Мб |
electrokinetic_valve_3d.pdf |
434.17Кб |
electrokinetic_valve.mph |
35.34Мб |
electrokinetic_valve.mph |
34.44Мб |
electrokinetic_valve.mph |
66.95Мб |
electrokinetic_valve.mph |
64.44Мб |
electrokinetic_valve.mphbin |
304.82Кб |
electrokinetic_valve.mphbin |
304.82Кб |
electrokinetic_valve.mphbin |
304.82Кб |
electrokinetic_valve.mphbin |
304.82Кб |
Electromagnetics Modeling in COMSOL Multiphysics 4.2a.pdf |
6.13Мб |
electron_beam_with_space_charge.mph |
12.39Кб |
electroosmotic_flow_parameters.txt |
863б |
electroosmotic_flow_parameters.txt |
863б |
electroosmotic_flow_parameters.txt |
863б |
electroosmotic_flow_sbs.pdf |
595.81Кб |
electroosmotic_flow_variables.txt |
720б |
electroosmotic_flow_variables.txt |
712б |
electroosmotic_flow_variables.txt |
712б |
electroosmotic_flow.mph |
3.46Мб |
electroosmotic_flow.mph |
2.06Мб |
electroosmotic_flow.mph |
1.87Мб |
electroosmotic_flow.mph |
3.86Мб |
electroosmotic_flow.pdf |
345.43Кб |
electroosmotic_mixer_sbs.pdf |
702.70Кб |
electroosmotic_mixer.mph |
54.22Мб |
electroosmotic_mixer.mph |
91.96Мб |
electroosmotic_mixer.mph |
91.85Мб |
electroosmotic_mixer.mph |
91.96Мб |
electroosmotic_mixer.mph |
90.45Мб |
electroosmotic_mixer.pdf |
504.19Кб |
electrophoresis_channel.mph |
2.87Мб |
electrophoresis_channel.pdf |
317.80Кб |
es.buoyancy_darcy_elder.pdf |
240.72Кб |
es.multilateral_well.pdf |
281.07Кб |
EvanescentCylinderCavity.mph |
56.20Мб |
EvanescentCylinderCavityNoSolution.mph |
451.67Кб |
example_mphselectbox.m |
1.36Кб |
example_mphselectbox.mph |
30.49Кб |
example_mphselectcoords.m |
1.62Кб |
example_mphselectcoords.mph |
84.63Кб |
Expanding Multiphysics Applications with COMSOL 4.2.pdf |
8.67Мб |
fabry_perot.mph |
10.83Мб |
falling_sand_parameters.txt |
281б |
falling_sand_parameters.txt |
281б |
falling_sand_parameters.txt |
281б |
falling_sand_parameters.txt |
281б |
falling_sand_sbs.pdf |
510.55Кб |
falling_sand.mph |
6.30Мб |
falling_sand.mph |
5.14Мб |
falling_sand.mph |
5.09Мб |
falling_sand.mph |
5.17Мб |
falling_sand.mph |
5.18Мб |
falling_sand.pdf |
387.21Кб |
feeder_clamp_sbs.pdf |
917.37Кб |
feeder_clamp.mph |
1.95Мб |
feeder_clamp.mph |
888.69Кб |
feeder_clamp.mph |
886.73Кб |
feeder_clamp.mph |
949.75Кб |
feeder_clamp.mph |
1.62Мб |
feeder_clamp.mph |
3.42Мб |
feeder_clamp.pdf |
264.76Кб |
FEM-modelling of SSRT for Corrosion Tests.pdf |
6.34Мб |
flexible_footing_sbs.pdf |
457.87Кб |
flexible_footing.mph |
11.20Мб |
flexible_footing.mph |
15.00Мб |
flexible_footing.pdf |
194.02Кб |
floating_potential_sbs.pdf |
318.26Кб |
floating_potential.mph |
1.10Мб |
floating_potential.pdf |
169.82Кб |
fluid_structure_interaction_sbs.pdf |
783.68Кб |
fluid_structure_interaction.mph |
23.42Мб |
fluid_structure_interaction.mph |
45.73Мб |
fluid_structure_interaction.mph |
45.64Мб |
fluid_structure_interaction.mph |
45.76Мб |
fluid_structure_interaction.mph |
48.35Мб |
fluid_structure_interaction.pdf |
659.91Кб |
flywheel_profile_sbs.pdf |
507.65Кб |
flywheel_profile.mph |
127.53Кб |
flywheel_profile.mph |
81.83Кб |
flywheel_profile.mph |
75.97Кб |
flywheel_profile.mph |
68.85Кб |
flywheel_profile.pdf |
281.86Кб |
forced_turbulent_convection_hcoeff.mph |
146.03Кб |
forced_turbulent_convection_sbs.pdf |
655.46Кб |
forced_turbulent_convection.mph |
2.30Мб |
forced_turbulent_convection.pdf |
456.96Кб |
free_convection_sbs.pdf |
930.39Кб |
free_convection.mph |
2.71Мб |
free_convection.mph |
89.20Кб |
free_convection.mph |
252.55Кб |
free_convection.mph |
251.94Кб |
free_convection.mph |
196.16Кб |
free_convection.mph |
278.20Кб |
free_convection.mph |
281.54Кб |
free_convection.pdf |
222.96Кб |
frequency_dependent_mesh.mph |
16.85Мб |
fresnel_equations.mph |
4.04Мб |
fuel_cell_stack_sbs.pdf |
667.69Кб |
fuel_cell_stack.mph |
10.10Мб |
fuel_cell_stack.pdf |
441.63Кб |
gaas_cvd_1.rxn |
114.09Кб |
gaas_cvd_2.mph |
895.98Кб |
gaas_cvd_2.rxn |
118.68Кб |
gaas_cvd_sbs.pdf |
931.18Кб |
gaas_cvd.pdf |
546.16Кб |
Gate_Valve_Pt_1.mp4 |
62.15Мб |
Gate_Valve_Pt_2.mp4 |
48.68Мб |
Gate_Valve_SBS.pdf |
1.92Мб |
Gate_Valve_SBS.pptx |
4.18Мб |
GateValve_GEOM_SEQUENCE.mph |
230.59Кб |
GateValve_GEOM.mphbin |
958.96Кб |
GateValve_PARAMS.txt |
147б |
GateValve_VARIABLES.txt |
139б |
GateValve_WithGate_Parametric.mph |
4.86Мб |
GateValve_WithGate.mph |
2.16Мб |
gaussian_beam_3d_sbs.pdf |
417.13Кб |
gaussian_beam_3d.mph |
15.34Мб |
gaussian_beam_3d.pdf |
156.13Кб |
gecko_foot_sbs.pdf |
340.17Кб |
gecko_foot.mph |
10.51Мб |
gecko_foot.mph |
2.01Мб |
gecko_foot.mph |
2.16Мб |
gecko_foot.mph |
1.82Мб |
gecko_foot.mph |
4.17Мб |
gecko_foot.mph |
4.21Мб |
gecko_foot.pdf |
196.45Кб |
generator_2d_sbs.pdf |
692.57Кб |
generator_2d.mph |
13.62Мб |
generator_2d.mph |
12.86Мб |
generator_2d.mph |
12.46Мб |
generator_2d.mph |
13.42Мб |
generator_2d.mph |
13.41Мб |
generator_2d.mphbin |
32.66Кб |
generator_2d.mphbin |
32.66Кб |
generator_2d.mphbin |
32.66Кб |
generator_2d.mphbin |
32.66Кб |
generator_2d.mphbin |
32.66Кб |
generator_2d.pdf |
337.43Кб |
geoelectrics.mph |
2.77Мб |
geoelectrics.mph |
2.20Мб |
geoelectrics.mph |
4.77Мб |
GeomechanicsModuleUsersGuide_Eng.pdf |
596.65Кб |
GeomechanicsModuleUsersGuide_Rus.pdf |
1.60Мб |
gold_lib.xml |
3.60Кб |
gravity_tutorial.mph |
196.70Кб |
gravity_tutorial.mph |
100.30Кб |
gravity_tutorial.mph |
219.17Кб |
gravity_tutorial.mph |
220.55Кб |
gravity_tutorial.pdf |
273.13Кб |
harmonic_content.mph |
4.21Мб |
harmonic_content.mph |
4.13Мб |
HASP4_driver_setup.zip |
4.83Мб |
HBFe.txt |
202б |
HBFe.txt |
202б |
HBFe.txt |
202б |
He_xsecs.txt |
3.42Кб |
heart_electrical_clg.mph |
2.53Мб |
heart_electrical_fhn.mph |
37.56Мб |
heart_electrical_sbs.pdf |
419.06Кб |
heart_electrical.mph |
49.96Мб |
heart_electrical.mph |
50.40Мб |
heart_electrical.mph |
58.54Мб |
heart_electrical.pdf |
273.76Кб |
heat_convection_2d_sbs.pdf |
211.23Кб |
heat_convection_2d.mph |
113.07Кб |
heat_convection_2d.mph |
58.49Кб |
heat_convection_2d.mph |
59.80Кб |
heat_convection_2d.mph |
45.03Кб |
heat_convection_2d.mph |
44.01Кб |
heat_convection_2d.mph |
61.64Кб |
heat_convection_2d.pdf |
122.13Кб |
heat_transfer_exact_flux_evaluation.mph |
67.73Кб |
heat.copper_layer.pdf |
137.69Кб |
heat.microwave_cancer_therapy.pdf |
267.20Кб |
heat.thermal_annealing.pdf |
167.36Кб |
heat.turbulent_backstep.pdf |
227.31Кб |
heated_wire_fsi.mph |
1.27Мб |
heated_wire_ozone.mph |
3.49Мб |
heated_wire.mph |
968.52Кб |
helmholtz_coil_sbs.pdf |
457.14Кб |
helmholtz_coil.mph |
2.35Мб |
helmholtz_coil.mph |
1.66Мб |
helmholtz_coil.mph |
1.66Мб |
helmholtz_coil.mph |
1.66Мб |
helmholtz_coil.mph |
1.36Мб |
helmholtz_coil.mph |
3.51Мб |
helmholtz_coil.pdf |
287.26Кб |
high_order_derivatives_35a.mph |
302.53Кб |
high_order_derivatives_40.mph |
163.98Кб |
hinge_assembly.mph |
4.33Мб |
hinge_assembly.mph |
3.03Мб |
hinge_assembly.mph |
7.62Мб |
hinge_assembly.mph |
7.63Мб |
hinge_assembly.mphbin |
393.65Кб |
hinge_assembly.mphbin |
393.65Кб |
hinge_assembly.mphbin |
393.65Кб |
hot_wall_furnace_sbs.pdf |
1.17Мб |
Hot_wall_furnace_v1.ppt |
1.21Мб |
hot_wall_furnace.mph |
22.40Мб |
Hot_wall_furnace.mph |
11.33Мб |
hot_wall_furnace.mphbin |
695.09Кб |
hot_wall_furnace.pdf |
342.06Кб |
Hot_wall_furnace.ppt |
1.21Мб |
ht_pem_parameters.txt |
1.47Кб |
ht_pem_parameters.txt |
1.47Кб |
ht_pem_parameters.txt |
1.47Кб |
ht_pem_parameters.txt |
1.47Кб |
ht_pem_parameters.txt |
1.47Кб |
ht_pem_parameters.txt |
1.47Кб |
ht_pem.mph |
4.94Мб |
ht_pem.mph |
4.94Мб |
ht_pem.mph |
4.96Мб |
ht_pem.mph |
4.76Мб |
ht_pem.mph |
5.25Мб |
ht_pem.mph |
12.29Мб |
hydrogen_atom_sbs.pdf |
407.09Кб |
hydrogen_atom.mph |
466.45Кб |
hydrogen_atom.pdf |
296.92Кб |
Improve Compute-Intense Applications in the Supercomputing Cloud.pdf |
2.12Мб |
inductive_heating_sbs.pdf |
253.28Кб |
inductive_heating.mph |
3.04Мб |
inductive_heating.mph |
2.02Мб |
inductive_heating.mph |
2.00Мб |
inductive_heating.mph |
7.26Мб |
inductive_heating.pdf |
125.65Кб |
inductor_3d.mph |
14.97Мб |
inductor_3d.mph |
14.90Мб |
inductor_3d.mphbin |
302.63Кб |
inductor_3d.mphbin |
302.63Кб |
inductor_in_circuit.mph |
9.99Мб |
inductor_in_circuit.mph |
10.05Мб |
injection_molding_mac.mp4 |
36.16Мб |
injection_molding_win.wmv |
37.47Мб |
inkjet_nozzle_ls.mph |
19.83Мб |
inkjet_nozzle_ls.mph |
33.17Мб |
inkjet_nozzle_ls.mph |
15.80Мб |
inkjet_nozzle_ls.mph |
14.19Мб |
inkjet_nozzle_ls.mph |
16.23Мб |
inkjet_nozzle_ls.mph |
16.26Мб |
inkjet_nozzle_pf.mph |
24.84Мб |
inkjet_nozzle_sbs.pdf |
775.93Кб |
inkjet_nozzle.pdf |
458.81Кб |
integro_partial_sbs.pdf |
472.27Кб |
integro_partial.mph |
128.29Кб |
integro_partial.mph |
461.46Кб |
integro_partial.mph |
455.80Кб |
integro_partial.mph |
434.26Кб |
integro_partial.pdf |
357.96Кб |
IntroductionToACDCModule.pdf |
3.43Мб |
IntroductionToBatteriesAndFuelCellsModule.pdf |
3.49Мб |
IntroductionToCFDModule.pdf |
3.78Мб |
IntroductionToCFDModule.pdf |
1.44Мб |
Introduction to COMSOL Multiphysics_2005.ppt |
12.95Мб |
Introduction to Comsol Multiphysics 4.pdf |
5.41Мб |
IntroductionToStructuralMechanicsModule.pdf |
7.82Мб |
IntroductionToStructuralMechanicsModule.pdf |
1.86Мб |
IntroductionToStructuralMechanicsModule.pdf |
4.45Мб |
ion_cyclotron_motion.mph |
1.60Мб |
ion_energy_distribution_function.mph |
54.19Мб |
ion_implanter.mph |
2.62Мб |
ion_implanter.mph |
1.93Мб |
ion_implanter.mph |
2.76Мб |
ion_implanter.mphbin |
355.63Кб |
ion_implanter.mphbin |
355.63Кб |
ion_implanter.mphbin |
355.63Кб |
ion_mobility_data.txt |
662б |
ion_mobility_data.txt |
662б |
isoelectric_separation.mph |
4.27Мб |
isospectral_drum_1.mph |
127.85Кб |
isospectral_drum_2.mph |
126.83Кб |
isospectral_drum_sbs.pdf |
300.70Кб |
isospectral_drum.pdf |
173.43Кб |
isospectral_drums.mph |
692.18Кб |
isospectral_drums.mph |
592.41Кб |
isospectral_drums.mph |
769.52Кб |
isotropic_compression.mph |
703.29Кб |
isotropic_compression.mph |
747.58Кб |
isotropic_compression.mph |
802.35Кб |
java.opts |
71б |
jet_instability_ls.mph |
14.14Мб |
jet_instability_ls.mph |
14.08Мб |
jet_instability_mm.mph |
1.73Мб |
jet_instability_mm.mph |
1.70Мб |
kdv_equation_sbs.pdf |
296.38Кб |
kdv_equation.mph |
493.18Кб |
kdv_equation.mph |
841.36Кб |
kdv_equation.mph |
876.73Кб |
kdv_equation.mph |
885.00Кб |
kdv_equation.pdf |
183.62Кб |
laminar_static_mixer_sbs.pdf |
479.71Кб |
laminar_static_mixer.mph |
10.51Мб |
laminar_static_mixer.mph |
3.85Мб |
laminar_static_mixer.mph |
1.86Мб |
laminar_static_mixer.mph |
3.36Мб |
laminar_static_mixer.mph |
4.09Мб |
laminar_static_mixer.pdf |
303.57Кб |
laser_heat_transient_CW_moving.mph |
18.55Мб |
laser_heat_transient_CW.mph |
3.43Мб |
laser_heat_transient_pulsed.mph |
5.47Мб |
laser_heating_sbs.pdf |
432.29Кб |
laser_heating.mph |
3.73Мб |
laser_heating.pdf |
309.70Кб |
Laser_heating.pptx |
4.60Мб |
left_handed_animation.gif |
171.71Кб |
left_handed_example_41.mph |
174.86Кб |
left_handed_example_42.mph |
172.49Кб |
li_battery_pack_3d.mph |
29.61Мб |
li_battery_pack_3d.mph |
22.31Мб |
li_battery_pack_3d.mph |
144.61Мб |
li_battery_pack_3d.mph |
122.34Мб |
li_battery_pack_parameters.txt |
3.04Кб |
li_battery_pack_parameters.txt |
3.04Кб |
li_battery_pack_parameters.txt |
3.04Кб |
li_battery_pack_unit_cell.mphbin |
487.89Кб |
li_battery_pack_unit_cell.mphbin |
487.89Кб |
li_battery_pack_unit_cell.mphbin |
487.89Кб |
li_battery_tutorial_2d_parameters.txt |
430б |
li_battery_tutorial_2d_parameters.txt |
430б |
li_battery_tutorial_2d_parameters.txt |
430б |
li_battery_tutorial_2d_parameters.txt |
430б |
li_battery_tutorial_2d.mph |
9.47Мб |
li_battery_tutorial_2d.mph |
9.45Мб |
li_battery_tutorial_2d.mph |
9.68Мб |
li_battery_tutorial_2d.mph |
9.68Мб |
li_battery_tutorial_2d.mphbin |
3.80Кб |
li_battery_tutorial_2d.mphbin |
3.80Кб |
li_battery_tutorial_2d.mphbin |
3.80Кб |
li_battery_tutorial_2d.mphbin |
3.80Кб |
light_bulb_sbs.pdf |
599.60Кб |
light_bulb.mph |
18.19Мб |
light_bulb.mph |
18.94Мб |
light_bulb.mph |
19.07Мб |
light_bulb.mph |
19.06Мб |
light_bulb.mph |
19.24Мб |
light_bulb.mphbin |
6.11Кб |
light_bulb.mphbin |
6.11Кб |
light_bulb.mphbin |
6.11Кб |
light_bulb.mphbin |
6.11Кб |
light_bulb.mphbin |
6.11Кб |
light_bulb.pdf |
408.75Кб |
linuxlm.zip |
20.39Мб |
liquid_chromatography_1.mph |
334.46Кб |
liquid_chromatography_1.mph |
3.00Мб |
liquid_chromatography_1.mph |
2.90Мб |
liquid_chromatography_1.mph |
2.96Мб |
liquid_chromatography_1.mph |
2.75Мб |
liquid_chromatography_1.mph |
2.79Мб |
liquid_chromatography_2.mph |
26.25Мб |
liquid_chromatography_3.mph |
5.44Мб |
liquid_chromatography_sbs.pdf |
982.78Кб |
liquid_chromatography.pdf |
538.62Кб |
local_time_average.mph |
550.46Кб |
lossy_circular_waveguide_sbs.pdf |
265.81Кб |
lossy_circular_waveguide.mph |
546.51Кб |
lossy_circular_waveguide.pdf |
197.81Кб |
macoslm.zip |
10.10Мб |
magnet_brake_sbs.pdf |
658.65Кб |
magnet_brake_simulink.mph |
121.69Кб |
magnet_brake.mph |
1.04Мб |
magnet_brake.mph |
1.71Мб |
magnet_brake.pdf |
200.64Кб |
magnetic_brake_3d_sbs.pdf |
513.06Кб |
magnetic_brake_3d.mph |
37.77Мб |
magnetic_brake_3d.pdf |
268.99Кб |
magnetic_brake.mph |
42.50Мб |
magnetic_brake.mph |
41.05Мб |
magnetic_brake.mph |
58.49Мб |
magnetic_brake.mph |
58.49Мб |
magnetic_damping.mph |
8.50Мб |
magnetic_drug_targeting_sbs.pdf |
749.37Кб |
magnetic_drug_targeting.pdf |
443.07Кб |
magnetic_lens.mph |
18.23Мб |
magnetostriction_41.mph |
11.29Мб |
magnetostrictive_transducer_42.pdf |
324.92Кб |
magnetostrictive_transducer_one_way.mph |
709.43Кб |
magnetostrictive_transducer.pdf |
719.21Кб |
magnetostrictive_transducer.ppt |
1.39Мб |
Manager Guide to Productivity Gains with Multiphysics Simulation_Part1.pdf |
1.35Мб |
Manager Guide to Productivity Gains with Multiphysics Simulation_Part2.pdf |
2.31Мб |
marangoni_convection_parameters.txt |
498б |
marangoni_convection_parameters.txt |
498б |
marangoni_convection_parameters.txt |
498б |
marangoni_convection_parameters.txt |
498б |
marangoni_convection_parameters.txt |
498б |
marangoni_convection.mph |
428.66Кб |
marangoni_convection.mph |
420.05Кб |
marangoni_convection.mph |
421.83Кб |
marangoni_convection.mph |
361.71Кб |
marangoni_convection.mph |
445.49Кб |
marangoni_sbs.pdf |
601.82Кб |
marangoni.mph |
384.63Кб |
marangoni.pdf |
343.86Кб |
MaxwellStefan_ReactingBoundary_v41.mph |
396.82Кб |
mems_heat_exchanger_3d.mph |
2.69Мб |
mems_heat_exchanger_3d.pdf |
595.32Кб |
mems_joule_heating_sbs.pdf |
781.30Кб |
mems_joule_heating.mph |
2.32Мб |
mems_joule_heating.mph |
1.24Мб |
mems_joule_heating.pdf |
311.77Кб |
mesh_plot_with_sol_41.mph |
217.76Кб |
mesh_plot_with_sol_42.mph |
228.55Кб |
meshing_sequence.zip |
3.27Мб |
microchannel_h_cell_parameters.txt |
173б |
microchannel_h_cell_parameters.txt |
172б |
microchannel_h_cell_sbs.pdf |
573.69Кб |
microchannel_h_cell.mph |
1.83Мб |
microchannel_h_cell.mph |
1.28Мб |
microchannel_h_cell.mph |
7.88Мб |
microchannel_h_cell.pdf |
381.88Кб |
microrobot_3d_sbs.pdf |
685.99Кб |
microrobot_3d.mph |
18.07Мб |
microrobot_3d.pdf |
447.75Кб |
microrobot_sbs.pdf |
548.31Кб |
microrobot.mph |
1.51Мб |
microrobot.pdf |
324.38Кб |
microstrip_impedance_v35a.mph |
1.55Мб |
microstrip_on_pcb_sbs.pdf |
564.35Кб |
microstrip_on_pcb.mph |
3.99Мб |
microstrip_on_pcb.pdf |
90.79Кб |
microstrip_port_v35a.mph |
849.06Кб |
microwave_cancer_therapy_parameters.txt |
618б |
microwave_cancer_therapy_parameters.txt |
618б |
microwave_cancer_therapy_parameters.txt |
618б |
microwave_cancer_therapy_parameters.txt |
618б |
microwave_cancer_therapy_parameters.txt |
618б |
microwave_cancer_therapy_sbs.pdf |
533.69Кб |
microwave_cancer_therapy.mph |
1.47Мб |
microwave_cancer_therapy.mph |
846.64Кб |
microwave_cancer_therapy.mph |
858.54Кб |
microwave_cancer_therapy.mph |
854.38Кб |
microwave_cancer_therapy.mph |
769.00Кб |
microwave_cancer_therapy.mph |
1.11Мб |
microwave_cancer_therapy.mphbin |
4.59Кб |
microwave_cancer_therapy.mphbin |
4.59Кб |
microwave_cancer_therapy.mphbin |
4.59Кб |
microwave_cancer_therapy.mphbin |
4.59Кб |
microwave_cancer_therapy.mphbin |
4.59Кб |
microwave_cancer_therapy.pdf |
387.63Кб |
microwave_oven_sbs.pdf |
483.43Кб |
microwave_oven.mph |
7.30Мб |
microwave_oven.mph |
17.56Мб |
microwave_oven.mph |
17.69Мб |
microwave_oven.mph |
17.55Мб |
microwave_oven.mph |
17.03Мб |
microwave_oven.mph |
22.08Мб |
microwave_oven.mph |
22.19Мб |
microwave_oven.pdf |
290.26Кб |
mie_scattering_dielectric_35a1.mph |
14.03Мб |
mie_scattering_dielectric_fulldomain_35a1.mph |
30.66Мб |
Mie_scattering_plasmonic_35a1.pdf |
848.36Кб |
Mie_scattering_plasmonic_35a1.ppt |
1.33Мб |
Mie_scattering_plasmonic_constants.txt |
248б |
Mie_scattering_plasmonic_expressions.txt |
1.80Кб |
Mie_scattering_plasmonic_reset_35a1.mph |
676.03Кб |
Mie_scattering_plasmonic_singlewavelength_35a1.mph |
2.54Мб |
Mie_scattering_plasmonic_sweep_35a1.mph |
83.19Мб |
milk_container_sbs.pdf |
404.75Кб |
milk_container.mph |
411.97Кб |
milk_container.pdf |
215.95Кб |
Model_Library_Update_COMSOL42.pdf |
972.62Кб |
Modeling of Materials Phase Transition.pdf |
523.34Кб |
Modeling The Lithium-Ion Battery.pdf |
1.96Мб |
models.acdc.capacitor_tunable.pdf |
671.09Кб |
models.acdc.capacitor_tunable.pdf |
675.36Кб |
models.acdc.capacitor_tunable.pdf |
674.40Кб |
models.acdc.coil_above_plate.pdf |
1.88Мб |
models.acdc.coil_above_plate.pdf |
1.97Мб |
models.acdc.coil_above_plate.pdf |
2.53Мб |
models.acdc.coil_eddy_currents.pdf |
1.14Мб |
models.acdc.coil_eddy_currents.pdf |
1.65Мб |
models.acdc.coil_eddy_currents.pdf |
1.64Мб |
models.acdc.cold_crucible.pdf |
539.55Кб |
models.acdc.cold_crucible.pdf |
700.32Кб |
models.acdc.cold_crucible.pdf |
719.12Кб |
models.acdc.cold_crucible.pdf |
724.98Кб |
models.acdc.cold_crucible.pdf |
708.89Кб |
models.acdc.contact_impedance_comparison.pdf |
1.80Мб |
models.acdc.eddy_currents.pdf |
1.24Мб |
models.acdc.electric_shielding.pdf |
315.64Кб |
models.acdc.electric_shielding.pdf |
333.72Кб |
models.acdc.electric_shielding.pdf |
345.66Кб |
models.acdc.electric_shielding.pdf |
779.64Кб |
models.acdc.generator_2d.pdf |
532.20Кб |
models.acdc.generator_2d.pdf |
538.15Кб |
models.acdc.generator_2d.pdf |
861.09Кб |
models.acdc.generator_2d.pdf |
819.43Кб |
models.acdc.geoelectrics.pdf |
1.57Мб |
models.acdc.geoelectrics.pdf |
1.70Мб |
models.acdc.geoelectrics.pdf |
1.89Мб |
models.acdc.helmholtz_coil.pdf |
367.57Кб |
models.acdc.helmholtz_coil.pdf |
489.67Кб |
models.acdc.helmholtz_coil.pdf |
498.42Кб |
models.acdc.helmholtz_coil.pdf |
1.03Мб |
models.acdc.inductive_heating.pdf |
242.71Кб |
models.acdc.inductive_heating.pdf |
240.21Кб |
models.acdc.inductive_heating.pdf |
266.48Кб |
models.acdc.inductor_3d.pdf |
26.14Кб |
models.acdc.inductor_3d.pdf |
26.32Кб |
models.acdc.inductor_in_circuit.pdf |
301.83Кб |
models.acdc.magnetic_brake.pdf |
836.06Кб |
models.acdc.magnetic_brake.pdf |
837.86Кб |
models.acdc.magnetic_brake.pdf |
937.58Кб |
models.acdc.magnetic_brake.pdf |
873.05Кб |
models.acdc.magnetic_damping.pdf |
1.64Мб |
models.acdc.magnetic_lens.pdf |
1.53Мб |
models.acdc.mutual_inductance_multiturn.pdf |
1.48Мб |
models.acdc.one_sided_magnet.pdf |
1.28Мб |
models.acdc.one_sided_magnet.pdf |
1.26Мб |
models.acdc.one_sided_magnet.pdf |
1.38Мб |
models.acdc.one_sided_magnet.pdf |
1.90Мб |
models.acdc.parallel_wires.pdf |
169.55Кб |
models.acdc.parallel_wires.pdf |
267.69Кб |
models.acdc.parallel_wires.pdf |
269.42Кб |
models.acdc.parallel_wires.pdf |
522.94Кб |
models.acdc.permanent_magnet.pdf |
402.18Кб |
models.acdc.permanent_magnet.pdf |
534.43Кб |
models.acdc.permanent_magnet.pdf |
552.72Кб |
models.acdc.permanent_magnet.pdf |
556.69Кб |
models.acdc.permeable_sphere_static_bfield.pdf |
2.87Мб |
models.acdc.permeable_sphere_static_bfield.pdf |
2.87Мб |
models.acdc.quadrupole_lens.pdf |
825.16Кб |
models.acdc.quadrupole_lens.pdf |
918.73Кб |
models.acdc.quadrupole_lens.pdf |
953.58Кб |
models.acdc.quadrupole_mass_filter.pdf |
535.21Кб |
models.acdc.quadrupole_mass_spectrometer.pdf |
395.76Кб |
models.acdc.spiral_inductor.pdf |
622.29Кб |
models.acdc.spiral_inductor.pdf |
692.42Кб |
models.acdc.spiral_inductor.pdf |
638.27Кб |
models.aco.acoustic_structure.pdf |
963.71Кб |
models.aco.acoustic_structure.pdf |
894.31Кб |
models.aco.acoustic_structure.pdf |
908.32Кб |
models.aco.acoustic_structure.pdf |
1.01Мб |
models.aco.coupled_vibrations_acsh.pdf |
1.03Мб |
models.aco.coupled_vibrations_acsh.pdf |
1.03Мб |
models.aco.coupled_vibrations_acsh.pdf |
1.01Мб |
models.aco.perforated_muffler.pdf |
947.16Кб |
models.aco.perforated_muffler.pdf |
939.79Кб |
models.aco.perforated_muffler.pdf |
1.43Мб |
models.aco.perforated_muffler.pdf |
1.42Мб |
models.aco.piezoacoustic_transducer.pdf |
619.36Кб |
models.aco.piezoacoustic_transducer.pdf |
583.58Кб |
models.aco.piezoacoustic_transducer.pdf |
571.80Кб |
models.aco.saw_gas_sensor.pdf |
815.56Кб |
models.aco.saw_gas_sensor.pdf |
850.15Кб |
models.aco.saw_gas_sensor.pdf |
770.98Кб |
models.aco.vented_loudspeaker_enclosure.pdf |
1.06Мб |
models.aco.vented_loudspeaker_enclosure.pdf |
1.49Мб |
models.bfc.ac_fuel_cell.pdf |
138.28Кб |
models.bfc.ac_fuel_cell.pdf |
138.10Кб |
models.bfc.ac_fuel_cell.pdf |
141.23Кб |
models.bfc.ht_pem.pdf |
599.17Кб |
models.bfc.ht_pem.pdf |
751.23Кб |
models.bfc.ht_pem.pdf |
1.10Мб |
models.bfc.ht_pem.pdf |
1.04Мб |
models.bfc.ht_pem.pdf |
1.07Мб |
models.bfc.li_battery_pack_3d.pdf |
2.35Мб |
models.bfc.li_battery_pack_3d.pdf |
1.75Мб |
models.bfc.li_battery_pack_3d.pdf |
1.65Мб |
models.bfc.li_battery_pack_3d.pdf |
1.73Мб |
models.bfc.li_battery_tutorial_2d.pdf |
26.82Кб |
models.bfc.li_battery_tutorial_2d.pdf |
26.92Кб |
models.bfc.li_battery_tutorial_2d.pdf |
26.94Кб |
models.bfc.li_battery_tutorial_2d.pdf |
25.99Кб |
models.bfc.nimh_battery_1d.pdf |
348.35Кб |
models.bfc.nimh_battery_1d.pdf |
365.22Кб |
models.bfc.nimh_battery_1d.pdf |
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models.bfc.nimh_battery_1d.pdf |
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models.bfc.pb_acid_battery_1d.pdf |
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models.bfc.pb_acid_battery_1d.pdf |
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models.bfc.pb_acid_battery_1d.pdf |
809.42Кб |
models.bfc.pb_acid_battery_1d.pdf |
719.29Кб |
models.bfc.primary_cd_grid.pdf |
1.19Мб |
models.bfc.primary_cd_grid.pdf |
1007.51Кб |
models.bfc.primary_cd_grid.pdf |
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models.bfc.primary_cd_grid.pdf |
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models.bfc.sofc_unit_cell.pdf |
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models.bfc.sofc_unit_cell.pdf |
725.20Кб |
models.bfc.sofc_unit_cell.pdf |
851.26Кб |
models.bfc.sofc_unit_cell.pdf |
855.15Кб |
models.cfd.ahmed_body.pdf |
1.83Мб |
models.cfd.ahmed_body.pdf |
2.02Мб |
models.cfd.ahmed_body.pdf |
2.02Мб |
models.cfd.backstep.pdf |
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models.cfd.backstep.pdf |
558.64Кб |
models.cfd.backstep.pdf |
549.86Кб |
models.cfd.backstep.pdf |
542.50Кб |
models.cfd.baffled_mixer.pdf |
837.48Кб |
models.cfd.boiling_water.pdf |
1.10Мб |
models.cfd.boiling_water.pdf |
1.15Мб |
models.cfd.boiling_water.pdf |
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models.cfd.boiling_water.pdf |
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models.cfd.bubble_column.pdf |
695.35Кб |
models.cfd.dense_suspension.pdf |
1001.55Кб |
models.cfd.dense_suspension.pdf |
806.51Кб |
models.cfd.dense_suspension.pdf |
829.57Кб |
models.cfd.gravity_tutorial.pdf |
404.84Кб |
models.cfd.gravity_tutorial.pdf |
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models.cfd.inkjet_nozzle_ls.pdf |
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models.cfd.inkjet_nozzle_ls.pdf |
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models.cfd.inkjet_nozzle_ls.pdf |
434.47Кб |
models.cfd.inkjet_nozzle_ls.pdf |
422.16Кб |
models.cfd.inkjet_nozzle_ls.pdf |
425.38Кб |
models.cfd.non_newtonian_flow.pdf |
398.53Кб |
models.cfd.non_newtonian_flow.pdf |
500.84Кб |
models.cfd.non_newtonian_flow.pdf |
564.82Кб |
models.cfd.non_newtonian_flow.pdf |
567.48Кб |
models.cfd.rising_bubble_2daxi.pdf |
297.28Кб |
models.cfd.rising_bubble_2daxi.pdf |
297.04Кб |
models.cfd.rising_bubble_2daxi.pdf |
297.40Кб |
models.cfd.rotating_disk.pdf |
1.26Мб |
models.cfd.rotating_disk.pdf |
1.46Мб |
models.cfd.sajben_diffuser.pdf |
569.84Кб |
models.cfd.thermophoresis.pdf |
582.35Кб |
models.cfd.thermophoresis.pdf |
587.15Кб |
models.cfd.turbulent_backstep.pdf |
424.27Кб |
models.cfd.turbulent_backstep.pdf |
554.04Кб |
models.cfd.turbulent_backstep.pdf |
532.42Кб |
models.cfd.turbulent_backstep.pdf |
576.61Кб |
models.chem.boat_reactor.pdf |
632.20Кб |
models.chem.boat_reactor.pdf |
801.50Кб |
models.chem.boat_reactor.pdf |
789.07Кб |
models.chem.boat_reactor.pdf |
792.83Кб |
models.chem.electrokinetic_valve.pdf |
554.65Кб |
models.chem.electrokinetic_valve.pdf |
568.45Кб |
models.chem.electrokinetic_valve.pdf |
554.43Кб |
models.chem.electrokinetic_valve.pdf |
508.36Кб |
models.chem.electroosmotic_flow.pdf |
874.13Кб |
models.chem.electroosmotic_flow.pdf |
817.90Кб |
models.chem.electroosmotic_flow.pdf |
637.59Кб |
models.chem.isoelectric_separation.pdf |
1.02Мб |
models.chem.laminar_static_mixer.pdf |
1.14Мб |
models.chem.laminar_static_mixer.pdf |
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models.chem.laminar_static_mixer.pdf |
1.13Мб |
models.chem.laminar_static_mixer.pdf |
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models.chem.liquid_chromatography_1.pdf |
265.78Кб |
models.chem.liquid_chromatography_1.pdf |
248.50Кб |
models.chem.liquid_chromatography_1.pdf |
260.69Кб |
models.chem.liquid_chromatography_1.pdf |
284.97Кб |
models.chem.microchannel_h_cell.pdf |
1.41Мб |
models.chem.microchannel_h_cell.pdf |
1.39Мб |
models.chem.porous_reactor.pdf |
1.03Мб |
models.chem.porous_reactor.pdf |
1.02Мб |
models.chem.porous_reactor.pdf |
1.01Мб |
models.chem.porous_reactor.pdf |
991.88Кб |
models.chem.steam_reformer.pdf |
1.46Мб |
models.chem.steam_reformer.pdf |
1.50Мб |
models.chem.steam_reformer.pdf |
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models.chem.steam_reformer.pdf |
1.47Мб |
models.edecm.electrode_insulator_growth.pdf |
316.80Кб |
models.edecm.zn_electrowinning.pdf |
694.56Кб |
models.edecm.zn_electrowinning.pdf |
706.24Кб |
models.edecm.zn_electrowinning.pdf |
1.28Мб |
models.es.buoyancy_darcy_elder.pdf |
862.11Кб |
models.es.multilateral_well.pdf |
668.02Кб |
models.fatigue.shaft_with_fillet.pdf |
1.09Мб |
models.geomech.block_verification.pdf |
268.56Кб |
models.geomech.block_verification.pdf |
270.11Кб |
models.geomech.block_verification.pdf |
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models.geomech.block_verification.pdf |
286.73Кб |
models.geomech.concrete_beam.pdf |
1.33Мб |
models.geomech.concrete_beam.pdf |
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models.geomech.deep_excavation.pdf |
897.97Кб |
models.geomech.flexible_footing.pdf |
406.37Кб |
models.geomech.isotropic_compression.pdf |
172.50Кб |
models.geomech.isotropic_compression.pdf |
172.94Кб |
models.geomech.isotropic_compression.pdf |
200.52Кб |
models.geomech.triaxial_test_rus.pdf |
352.92Кб |
models.geomech.triaxial_test.pdf |
274.67Кб |
models.heat.aluminum_extrusion_fsi.pdf |
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models.heat.aluminum_extrusion_fsi.pdf |
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models.heat.aluminum_extrusion_fsi.pdf |
1.18Мб |
models.heat.brake_disc.pdf |
1.23Мб |
models.heat.brake_disc.pdf |
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models.heat.brake_disc.pdf |
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models.heat.cold_water_glass.pdf |
408.50Кб |
models.heat.cold_water_glass.pdf |
421.89Кб |
models.heat.cold_water_glass.pdf |
766.94Кб |
models.heat.cold_water_glass.pdf |
787.07Кб |
models.heat.continuous_casting.pdf |
1008.15Кб |
models.heat.continuous_casting.pdf |
1.05Мб |
models.heat.continuous_casting.pdf |
1.05Мб |
models.heat.continuous_casting.pdf |
1.02Мб |
models.heat.copper_layer.pdf |
333.66Кб |
models.heat.copper_layer.pdf |
567.22Кб |
models.heat.copper_layer.pdf |
566.29Кб |
models.heat.copper_layer.pdf |
559.79Кб |
models.heat.light_bulb.pdf |
569.76Кб |
models.heat.light_bulb.pdf |
1.03Мб |
models.heat.light_bulb.pdf |
705.38Кб |
models.heat.light_bulb.pdf |
836.64Кб |
models.heat.microwave_cancer_therapy.pdf |
581.71Кб |
models.heat.microwave_cancer_therapy.pdf |
702.30Кб |
models.heat.microwave_cancer_therapy.pdf |
706.59Кб |
models.heat.microwave_cancer_therapy.pdf |
717.47Кб |
models.heat.potcore_inductor.pdf |
440.55Кб |
models.heat.potcore_inductor.pdf |
723.14Кб |
models.heat.potcore_inductor.pdf |
433.06Кб |
models.heat.shell_conduction.pdf |
341.29Кб |
models.heat.shell_conduction.pdf |
333.36Кб |
models.heat.shell_conduction.pdf |
346.84Кб |
models.heat.thermal_annealing.pdf |
249.28Кб |
models.heat.thermal_annealing.pdf |
311.10Кб |
models.heat.thermal_annealing.pdf |
336.41Кб |
models.heat.thermal_annealing.pdf |
344.59Кб |
models.heat.thermophoresis.pdf |
582.32Кб |
models.heat.thermophoresis.pdf |
587.12Кб |
models.heat.turbulent_backstep.pdf |
418.69Кб |
models.heat.turbulent_backstep.pdf |
553.85Кб |
models.heat.turbulent_backstep.pdf |
532.54Кб |
models.heat.turbulent_backstep.pdf |
571.88Кб |
models.heat.turbulent_heat_exchanger.pdf |
1.01Мб |
models.heat.turbulent_heat_exchanger.pdf |
1.45Мб |
models.heat.turbulent_heat_exchanger.pdf |
1.41Мб |
models.mems.capacitive_pressure_sensor.pdf |
1.28Мб |
models.mems.fluid_structure_interaction.pdf |
2.20Мб |
models.mems.fluid_structure_interaction.pdf |
2.20Мб |
models.mems.fluid_structure_interaction.pdf |
2.24Мб |
models.mems.fluid_structure_interaction.pdf |
2.16Мб |
models.mems.gecko_foot.pdf |
922.80Кб |
models.mems.gecko_foot.pdf |
489.65Кб |
models.mems.gecko_foot.pdf |
465.43Кб |
models.mems.gecko_foot.pdf |
445.71Кб |
models.mems.gecko_foot.pdf |
430.11Кб |
models.mems.inkjet_nozzle_ls.pdf |
603.62Кб |
models.mems.piezoceramic_tube.pdf |
875.28Кб |
models.mems.saw_gas_sensor.pdf |
819.00Кб |
models.mems.saw_gas_sensor.pdf |
850.45Кб |
models.mems.saw_gas_sensor.pdf |
771.29Кб |
models.mems.shear_bender.pdf |
582.66Кб |
models.mems.shear_bender.pdf |
588.01Кб |
models.mems.shear_bender.pdf |
598.66Кб |
models.mfl.electrokinetic_valve.pdf |
555.77Кб |
models.mfl.electrokinetic_valve.pdf |
568.95Кб |
models.mfl.electrokinetic_valve.pdf |
554.45Кб |
models.mfl.electrokinetic_valve.pdf |
506.79Кб |
models.mfl.electroosmotic_mixer.pdf |
1.33Мб |
models.mfl.electroosmotic_mixer.pdf |
1.76Мб |
models.mfl.electroosmotic_mixer.pdf |
2.24Мб |
models.mfl.electroosmotic_mixer.pdf |
2.05Мб |
models.mfl.inkjet_nozzle_ls.pdf |
377.77Кб |
models.mfl.inkjet_nozzle_ls.pdf |
434.51Кб |
models.mfl.inkjet_nozzle_ls.pdf |
422.15Кб |
models.mfl.inkjet_nozzle_ls.pdf |
425.37Кб |
models.mfl.ion_implanter.pdf |
1.06Мб |
models.mfl.ion_implanter.pdf |
1.02Мб |
models.mfl.ion_implanter.pdf |
983.38Кб |
models.mfl.jet_instability_ls.pdf |
224.12Кб |
models.mfl.jet_instability_ls.pdf |
221.68Кб |
models.mfl.jet_instability_mm.pdf |
220.83Кб |
models.mfl.jet_instability_mm.pdf |
221.05Кб |
models.mph.automotive_muffler.pdf |
1.10Мб |
models.mph.automotive_muffler.pdf |
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models.mph.automotive_muffler.pdf |
1.25Мб |
models.mph.black_scholes_put.pdf |
93.73Кб |
models.mph.black_scholes_put.pdf |
99.01Кб |
models.mph.black_scholes_put.pdf |
98.76Кб |
models.mph.conical_quantum_dot.pdf |
451.98Кб |
models.mph.conical_quantum_dot.pdf |
488.32Кб |
models.mph.cylinder_flow.pdf |
233.92Кб |
models.mph.cylinder_flow.pdf |
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models.mph.cylinder_flow.pdf |
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models.mph.cylinder_flow.pdf |
1.04Мб |
models.mph.cylinder_flow.pdf |
1.06Мб |
models.mph.diffraction_patterns.pdf |
629.27Кб |
models.mph.diffraction_patterns.pdf |
749.67Кб |
models.mph.diffraction_patterns.pdf |
731.81Кб |
models.mph.eigenmodes_of_room.pdf |
981.87Кб |
models.mph.eigenmodes_of_room.pdf |
1.08Мб |
models.mph.eigenmodes_of_room.pdf |
1.20Мб |
models.mph.falling_sand.pdf |
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models.mph.falling_sand.pdf |
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models.mph.falling_sand.pdf |
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models.mph.falling_sand.pdf |
1.33Мб |
models.mph.feeder_clamp.pdf |
961.34Кб |
models.mph.feeder_clamp.pdf |
1.18Мб |
models.mph.feeder_clamp.pdf |
2.30Мб |
models.mph.feeder_clamp.pdf |
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models.mph.flywheel_profile.pdf |
292.30Кб |
models.mph.flywheel_profile.pdf |
236.27Кб |
models.mph.flywheel_profile.pdf |
232.11Кб |
models.mph.free_convection.pdf |
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models.mph.free_convection.pdf |
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models.mph.free_convection.pdf |
395.05Кб |
models.mph.free_convection.pdf |
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models.mph.free_convection.pdf |
392.64Кб |
models.mph.heart_electrical.pdf |
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models.mph.heart_electrical.pdf |
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models.mph.heart_electrical.pdf |
1.22Мб |
models.mph.heat_convection_2d.pdf |
151.26Кб |
models.mph.heat_convection_2d.pdf |
238.04Кб |
models.mph.heat_convection_2d.pdf |
240.35Кб |
models.mph.heat_convection_2d.pdf |
237.54Кб |
models.mph.integro_partial.pdf |
580.53Кб |
models.mph.integro_partial.pdf |
350.58Кб |
models.mph.integro_partial.pdf |
398.92Кб |
models.mph.isospectral_drums.pdf |
594.60Кб |
models.mph.isospectral_drums.pdf |
562.20Кб |
models.mph.isospectral_drums.pdf |
375.72Кб |
models.mph.kdv_equation.pdf |
265.53Кб |
models.mph.kdv_equation.pdf |
320.18Кб |
models.mph.kdv_equation.pdf |
321.75Кб |
models.mph.marangoni_convection.pdf |
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models.mph.marangoni_convection.pdf |
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models.mph.marangoni_convection.pdf |
885.40Кб |
models.mph.marangoni_convection.pdf |
866.15Кб |
models.mph.point_source.pdf |
252.52Кб |
models.mph.point_source.pdf |
290.82Кб |
models.mph.point_source.pdf |
295.87Кб |
models.mph.quadrupole.pdf |
1.10Мб |
models.mph.quadrupole.pdf |
1.87Мб |
models.mph.quadrupole.pdf |
2.17Мб |
models.mph.rock_fracture_flow.pdf |
588.32Кб |
models.mph.rock_fracture_flow.pdf |
650.84Кб |
models.mph.rock_fracture_flow.pdf |
644.18Кб |
models.mph.shock_tube.pdf |
408.42Кб |
models.mph.shock_tube.pdf |
333.88Кб |
models.mph.shock_tube.pdf |
328.29Кб |
models.mph.sloshing_tank.pdf |
442.99Кб |
models.mph.sloshing_tank.pdf |
644.04Кб |
models.mph.sloshing_tank.pdf |
743.02Кб |
models.mph.sloshing_tank.pdf |
661.26Кб |
models.mph.spherically_symmetric_transport.pdf |
276.47Кб |
models.mph.spherically_symmetric_transport.pdf |
325.63Кб |
models.mph.spherically_symmetric_transport.pdf |
332.95Кб |
models.mph.telegraph_equation.pdf |
117.68Кб |
models.mph.telegraph_equation.pdf |
132.09Кб |
models.mph.telegraph_equation.pdf |
128.32Кб |
models.mph.thin_film_resistance.pdf |
353.18Кб |
models.mph.thin_film_resistance.pdf |
576.80Кб |
models.mph.thin_film_resistance.pdf |
399.11Кб |
models.mph.thin_layer_diffusion.pdf |
640.49Кб |
models.mph.thin_layer_diffusion.pdf |
757.88Кб |
models.mph.thin_layer_diffusion.pdf |
866.00Кб |
models.mph.thin_layer_diffusion.pdf |
844.31Кб |
models.mph.transport_and_adsorption.pdf |
424.56Кб |
models.mph.transport_and_adsorption.pdf |
516.88Кб |
models.mph.transport_and_adsorption.pdf |
520.55Кб |
models.mph.tubular_reactor.pdf |
367.46Кб |
models.mph.tubular_reactor.pdf |
424.60Кб |
models.mph.tubular_reactor.pdf |
409.36Кб |
models.nsm.bar_necking.pdf |
255.03Кб |
models.nsm.bar_necking.pdf |
284.14Кб |
models.nsm.biomedical_stent.pdf |
1.48Мб |
models.nsm.bracket_basic.pdf |
25.71Кб |
models.nsm.bracket_basic.pdf |
25.72Кб |
models.nsm.bracket_plasticity.pdf |
527.10Кб |
models.nsm.bracket_plasticity.pdf |
514.19Кб |
models.nsm.compressed_elastoplastic_pipe.pdf |
701.55Кб |
models.nsm.compressed_elastoplastic_pipe.pdf |
741.08Кб |
models.nsm.orthotropic_container.pdf |
447.26Кб |
models.nsm.orthotropic_container.pdf |
442.16Кб |
models.nsm.sheet_metal_forming.pdf |
772.88Кб |
models.nsm.sheet_metal_forming.pdf |
778.66Кб |
models.nsm.snap_hook.pdf |
532.81Кб |
models.nsm.snap_hook.pdf |
549.01Кб |
models.nsm.thermally_induced_creep.pdf |
319.71Кб |
models.particle.ion_cyclotron_motion.pdf |
834.88Кб |
models.pipe.mold_cooling.pdf |
1.35Мб |
models.plasma.argon_3d_icp.pdf |
342.04Кб |
models.plasma.argon_3d_icp.pdf |
514.79Кб |
models.plasma.argon_3d_icp.pdf |
403.98Кб |
models.plasma.argon_3d_icp.pdf |
475.38Кб |
models.plasma.boltzmann_oxygen.pdf |
1.44Мб |
models.plasma.ccp_benchmark.pdf |
343.00Кб |
models.plasma.dipolar_ecr_source.pdf |
2.19Мб |
models.plasma.dipolar_ecr_source.pdf |
2.28Мб |
models.plasma.harmonic_content.pdf |
880.57Кб |
models.plasma.harmonic_content.pdf |
850.81Кб |
models.plasma.ion_energy_distribution_function.pdf |
299.32Кб |
models.plasma.positive_column_1d.pdf |
789.26Кб |
models.plasma.positive_column_1d.pdf |
290.67Кб |
models.plasma.positive_column_1d.pdf |
287.58Кб |
models.plasma.positive_column_2d.pdf |
929.01Кб |
models.plasma.positive_column_2d.pdf |
609.27Кб |
models.plasma.positive_column_2d.pdf |
608.87Кб |
models.plasma.surface_chemistry_tutorial.pdf |
897.36Кб |
models.plasma.thermal_plasma.pdf |
905.63Кб |
models.plasma.thermal_plasma.pdf |
1.25Мб |
models.plasma.thermal_plasma.pdf |
1.22Мб |
models.rf.beam_splitter.pdf |
558.07Кб |
models.rf.beam_splitter.pdf |
556.71Кб |
models.rf.coaxial_cable_transient.pdf |
534.18Кб |
models.rf.coaxial_cable_transient.pdf |
529.15Кб |
models.rf.coaxial_cable_transient.pdf |
482.45Кб |
models.rf.coaxial_waveguide_coupling.pdf |
245.88Кб |
models.rf.conical_antenna.pdf |
391.99Кб |
models.rf.conical_antenna.pdf |
400.69Кб |
models.rf.conical_antenna.pdf |
698.22Кб |
models.rf.cylindrical_cavity_filter_evanescent.pdf |
1.07Мб |
models.rf.dielectric_slab_waveguide.pdf |
705.22Кб |
models.rf.fabry_perot.pdf |
727.47Кб |
models.rf.fresnel_equations.pdf |
849.52Кб |
models.rf.microwave_cancer_therapy.pdf |
580.55Кб |
models.rf.microwave_cancer_therapy.pdf |
682.03Кб |
models.rf.microwave_cancer_therapy.pdf |
686.29Кб |
models.rf.microwave_cancer_therapy.pdf |
689.22Кб |
models.rf.microwave_oven.pdf |
666.77Кб |
models.rf.microwave_oven.pdf |
885.17Кб |
models.rf.microwave_oven.pdf |
643.96Кб |
models.rf.microwave_oven.pdf |
644.08Кб |
models.rf.microwave_oven.pdf |
603.36Кб |
models.rf.nanorods.pdf |
753.37Кб |
models.rf.nanorods.pdf |
777.84Кб |
models.rf.periodic_boundary_condition.pdf |
214.68Кб |
models.rf.periodic_boundary_condition.pdf |
298.12Кб |
models.rf.photonic_crystal.pdf |
337.09Кб |
models.rf.photonic_crystal.pdf |
454.33Кб |
models.rf.photonic_crystal.pdf |
504.16Кб |
models.rf.photonic_crystal.pdf |
455.08Кб |
models.rf.plasmonic_wire_grating.pdf |
654.55Кб |
models.rf.plasmonic_wire_grating.pdf |
654.55Кб |
models.rf.radar_cross_section.pdf |
824.40Кб |
models.rf.radar_cross_section.pdf |
1.12Мб |
models.rf.radar_cross_section.pdf |
1.21Мб |
models.rf.rcs_sphere.pdf |
1.58Мб |
models.rf.rf_coil.pdf |
683.75Кб |
models.rf.rf_coil.pdf |
736.05Кб |
models.rf.rf_coil.pdf |
819.17Кб |
models.rf.rf_heating.pdf |
2.34Мб |
models.rf.sar_in_human_head.pdf |
1.42Мб |
models.rf.scattering_nanosphere.pdf |
1.63Мб |
models.rf.step_index_fiber.pdf |
336.19Кб |
models.rf.step_index_fiber.pdf |
460.68Кб |
models.rf.step_index_fiber.pdf |
487.71Кб |
models.rf.step_index_fiber.pdf |
481.83Кб |
models.rf.stress_optical_generalized.pdf |
660.78Кб |
models.rf.stress_optical_generalized.pdf |
645.81Кб |
models.rf.stress_optical_generalized.pdf |
649.61Кб |
models.rf.stress_optical.pdf |
814.90Кб |
models.rf.stress_optical.pdf |
807.13Кб |
models.rf.waveguide_adapter.pdf |
383.63Кб |
models.rf.waveguide_adapter.pdf |
460.51Кб |
models.rf.waveguide_adapter.pdf |
463.22Кб |
models.rf.waveguide_adapter.pdf |
465.32Кб |
models.rf.waveguide_iris_filter.pdf |
1.06Мб |
models.rf.waveguide_iris_filter.pdf |
1.08Мб |
models.sme.acoustic_structure.pdf |
963.92Кб |
models.sme.acoustic_structure.pdf |
899.11Кб |
models.sme.acoustic_structure.pdf |
913.30Кб |
models.sme.acoustic_structure.pdf |
1.01Мб |
models.sme.aluminum_extrusion_fsi.pdf |
1.43Мб |
models.sme.aluminum_extrusion_fsi.pdf |
1.23Мб |
models.sme.aluminum_extrusion_fsi.pdf |
1.18Мб |
models.sme.bipolar_plate.pdf |
2.70Мб |
models.sme.bipolar_plate.pdf |
2.61Мб |
models.sme.bipolar_plate.pdf |
2.63Мб |
models.sme.bracket_basic.pdf |
25.39Кб |
models.sme.bracket_basic.pdf |
25.58Кб |
models.sme.bracket_basic.pdf |
25.57Кб |
models.sme.bracket_basic.pdf |
25.57Кб |
models.sme.bracket_contact.pdf |
24.79Кб |
models.sme.bracket_contact.pdf |
25.13Кб |
models.sme.bracket_contact.pdf |
414.35Кб |
models.sme.bracket_contact.pdf |
535.41Кб |
models.sme.bracket_eigenfrequency.pdf |
26.07Кб |
models.sme.bracket_eigenfrequency.pdf |
26.16Кб |
models.sme.bracket_eigenfrequency.pdf |
595.66Кб |
models.sme.bracket_eigenfrequency.pdf |
561.94Кб |
models.sme.bracket_frequency.pdf |
25.62Кб |
models.sme.bracket_frequency.pdf |
25.72Кб |
models.sme.bracket_frequency.pdf |
308.50Кб |
models.sme.bracket_frequency.pdf |
293.99Кб |
models.sme.bracket_initial_strain.pdf |
25.05Кб |
models.sme.bracket_initial_strain.pdf |
25.15Кб |
models.sme.bracket_initial_strain.pdf |
25.13Кб |
models.sme.bracket_initial_strain.pdf |
25.15Кб |
models.sme.bracket_linear_buckling.pdf |
25.79Кб |
models.sme.bracket_linear_buckling.pdf |
26.50Кб |
models.sme.bracket_linear_buckling.pdf |
362.96Кб |
models.sme.bracket_linear_buckling.pdf |
320.07Кб |
models.sme.bracket_parametric.pdf |
25.44Кб |
models.sme.bracket_parametric.pdf |
25.65Кб |
models.sme.bracket_parametric.pdf |
25.63Кб |
models.sme.bracket_parametric.pdf |
25.62Кб |
models.sme.bracket_plasticity.pdf |
25.50Кб |
models.sme.bracket_plasticity.pdf |
25.79Кб |
models.sme.bracket_rigid_connector.pdf |
25.79Кб |
models.sme.bracket_rigid_connector.pdf |
25.90Кб |
models.sme.bracket_rigid_connector.pdf |
780.41Кб |
models.sme.bracket_rigid_connector.pdf |
571.43Кб |
models.sme.bracket_shell.pdf |
25.04Кб |
models.sme.bracket_shell.pdf |
25.05Кб |
models.sme.bracket_shell.pdf |
366.27Кб |
models.sme.bracket_shell.pdf |
343.21Кб |
models.sme.bracket_spring.pdf |
26.37Кб |
models.sme.bracket_spring.pdf |
26.46Кб |
models.sme.bracket_spring.pdf |
489.10Кб |
models.sme.bracket_spring.pdf |
460.29Кб |
models.sme.bracket_static.pdf |
25.52Кб |
models.sme.bracket_static.pdf |
25.63Кб |
models.sme.bracket_static.pdf |
25.61Кб |
models.sme.bracket_static.pdf |
25.58Кб |
models.sme.bracket_thermal.pdf |
25.90Кб |
models.sme.bracket_thermal.pdf |
26.00Кб |
models.sme.bracket_thermal.pdf |
25.98Кб |
models.sme.bracket_thermal.pdf |
25.98Кб |
models.sme.bracket_transient.pdf |
25.26Кб |
models.sme.bracket_transient.pdf |
25.37Кб |
models.sme.bracket_transient.pdf |
399.78Кб |
models.sme.bracket_transient.pdf |
383.40Кб |
models.sme.coupled_vibrations.pdf |
1.04Мб |
models.sme.coupled_vibrations.pdf |
1.04Мб |
models.sme.coupled_vibrations.pdf |
1.02Мб |
models.sme.hinge_assembly.pdf |
458.08Кб |
models.sme.hinge_assembly.pdf |
432.75Кб |
models.sme.hinge_assembly.pdf |
442.18Кб |
models.sme.hinge_assembly.pdf |
436.19Кб |
models.sme.magnetostriction.pdf |
1.06Мб |
models.sme.nonlinear_magnetostriction.pdf |
1.08Мб |
models.sme.piezoacoustic_transducer.pdf |
620.38Кб |
models.sme.piezoacoustic_transducer.pdf |
591.46Кб |
models.sme.piezoacoustic_transducer.pdf |
576.77Кб |
models.sme.shear_bender.pdf |
582.44Кб |
models.sme.shear_bender.pdf |
587.92Кб |
models.sme.shear_bender.pdf |
598.49Кб |
models.sme.sheet_metal_forming.pdf |
756.60Кб |
models.sme.sliding_wedge.pdf |
328.97Кб |
models.sme.snap_hook.pdf |
543.55Кб |
models.sme.snap_hook.pdf |
528.79Кб |
models.sme.stress_optical_generalized.pdf |
661.59Кб |
models.sme.stress_optical_generalized.pdf |
645.63Кб |
models.sme.stress_optical_generalized.pdf |
654.38Кб |
models.sme.stress_optical.pdf |
808.86Кб |
models.sme.stress_optical.pdf |
807.12Кб |
models.sme.stress_optical.pdf |
815.02Кб |
models.sme.thermally_induced_creep.pdf |
517.22Кб |
models.sme.thermally_induced_creep.pdf |
489.18Кб |
models.sme.thermally_induced_creep.pdf |
481.95Кб |
models.sme.tube_connection.pdf |
1.70Мб |
models.sme.tube_connection.pdf |
1.65Мб |
models.sme.tube_connection.pdf |
1.68Мб |
models.sme.vibrating_beam.pdf |
235.63Кб |
models.sme.vibrating_beam.pdf |
224.98Кб |
models.sme.viscoelastic_damper_frequency.pdf |
560.85Кб |
models.sme.viscoelastic_damper_transient.pdf |
569.01Кб |
models.sme.viscoelastic_tube.pdf |
428.40Кб |
models.sme.viscoelastic_tube.pdf |
442.74Кб |
models.sme.viscoelastic_tube.pdf |
442.30Кб |
models.ssf.biot_poroelasticity.pdf |
1.46Мб |
models.ssf.biot_poroelasticity.pdf |
1.21Мб |
models.ssf.biot_poroelasticity.pdf |
1.24Мб |
models.ssf.multilateral_well.pdf |
926.31Кб |
mold_cooling_geom_sequence.mph |
11.92Кб |
mold_cooling_top.mphbin |
679.53Кб |
mold_cooling.mph |
67.34Мб |
monolithic_reactor_sbs.pdf |
390.35Кб |
monolithic_reactor.mph |
560.46Кб |
monolithic_reactor.pdf |
299.07Кб |
mos_transistor_sbs.pdf |
722.78Кб |
mos_transistor.mph |
9.67Мб |
mos_transistor.mph |
20.19Мб |
mos_transistor.pdf |
356.78Кб |
mph.cylinder_flow.pdf |
102.02Кб |
mph.feeder_clamp.pdf |
373.54Кб |
mph.free_convection.pdf |
152.31Кб |
mph.heat_convection_2d.pdf |
81.48Кб |
mph.marangoni_convection.pdf |
209.61Кб |
mph.spherically_symmetric_transport.pdf |
216.41Кб |
mph.thin_layer_diffusion.pdf |
107.20Кб |
MRI_Bird_Cage.pdf |
2.38Мб |
muffler_ta_impedance.mph |
41.26Мб |
muffler_with_thermoacoustic_sub_model.pptx |
1.67Мб |
multilateral_well_sbs.pdf |
706.22Кб |
multilateral_well.mph |
1.16Мб |
multilateral_well.mph |
555.81Кб |
multilateral_well.mph |
553.46Кб |
multilateral_well.mph |
851.65Кб |
multilateral_well.mphbin |
49.35Кб |
multilateral_well.mphbin |
49.35Кб |
multilateral_well.mphbin |
49.35Кб |
multilateral_well.mphbin |
49.35Кб |
multilateral_well.pdf |
463.19Кб |
Multiphysics Modeling Using COMSOL. A First Principles ApproachRoger_PryorRW_2009.pdf |
33.23Мб |
Multiphysics Modeling Using COMSOL. A First Principles ApproachRoger_PryorRW_2011.pdf |
38.36Мб |
Multiphysics Simulation. An IEEE Spectrum Supplement.pdf |
2.61Мб |
mutual_inductance_multiturn.mph |
545.81Кб |
myscript35a.m |
866б |
myscript4.m |
1019б |
nanorods.mph |
5.69Мб |
nanorods.mph |
5.68Мб |
NASA Tech Briefs Software Supplement 2011.pdf |
2.50Мб |
NASA Tech Briefs Software Supplement 2012.pdf |
2.68Мб |
nimh_battery_1d_Eeq_neg.txt |
1.55Кб |
nimh_battery_1d_Eeq_neg.txt |
1.55Кб |
nimh_battery_1d_Eeq_neg.txt |
1.55Кб |
nimh_battery_1d_Eeq_neg.txt |
1.55Кб |
nimh_battery_1d_Eeq_pos_discharge.txt |
1.46Кб |
nimh_battery_1d_Eeq_pos_discharge.txt |
1.46Кб |
nimh_battery_1d_Eeq_pos_discharge.txt |
1.46Кб |
nimh_battery_1d_Eeq_pos_discharge.txt |
1.46Кб |
nimh_battery_1d_parameters.txt |
2.08Кб |
nimh_battery_1d_parameters.txt |
2.08Кб |
nimh_battery_1d_parameters.txt |
2.08Кб |
nimh_battery_1d_parameters.txt |
2.08Кб |
nimh_battery_1d.mph |
1.15Мб |
nimh_battery_1d.mph |
1.13Мб |
nimh_battery_1d.mph |
1021.77Кб |
nimh_battery_1d.mph |
939.80Кб |
no_terminal_feature.png |
94.42Кб |
non_newtonian_flow_sbs.pdf |
408.54Кб |
non_newtonian_flow.mph |
597.82Кб |
non_newtonian_flow.mph |
650.88Кб |
non_newtonian_flow.mph |
258.97Кб |
non_newtonian_flow.mph |
261.79Кб |
non_newtonian_flow.mph |
1.88Мб |
non_newtonian_flow.mph |
2.09Мб |
non_newtonian_flow.pdf |
295.75Кб |
nonisothermal_flow_sbs.pdf |
578.59Кб |
nonisothermal_flow.mph |
492.74Кб |
nonisothermal_flow.pdf |
284.43Кб |
nonlinear_magnetic.mph |
1.10Мб |
nonlinear_magnetostriction_42.mph |
11.30Мб |
nonlinear_magnetostriction_HBFe.txt |
202б |
nonlinear_magnetostriction.mph |
11.06Мб |
O2_drift_velocity_expt.txt |
4.24Кб |
O2_Te_expt.txt |
2.15Кб |
O2_xsecs.txt |
13.98Кб |
obstacle_in_fluid_sbs.pdf |
414.72Кб |
obstacle_in_fluid.mph |
1.20Мб |
obstacle_in_fluid.pdf |
192.51Кб |
one_sided_magnet_sbs.pdf |
615.70Кб |
one_sided_magnet.mph |
835.15Кб |
one_sided_magnet.mph |
392.04Кб |
one_sided_magnet.mph |
396.29Кб |
one_sided_magnet.mph |
401.94Кб |
one_sided_magnet.mph |
292.06Кб |
one_sided_magnet.mph |
731.53Кб |
one_sided_magnet.pdf |
202.55Кб |
opt_ug.pdf |
307.63Кб |
orthotropic_container.mph |
961.56Кб |
orthotropic_container.mph |
957.70Кб |
oscillating_droplet.mph |
51.76Мб |
oscillating_droplet.pdf |
522.84Кб |
ozone_combustion.rxn |
61.74Кб |
parallel_plates.mph |
230.80Кб |
parallel_plates.pdf |
289.59Кб |
parallel_wires_sbs.pdf |
562.42Кб |
parallel_wires.mph |
456.83Кб |
parallel_wires.mph |
130.25Кб |
parallel_wires.mph |
131.36Кб |
parallel_wires.mph |
143.42Кб |
parallel_wires.mph |
125.74Кб |
parallel_wires.mph |
180.15Кб |
parallel_wires.pdf |
145.99Кб |
parameters_41.txt |
424б |
particle_plume_1_mac.mp4 |
39.40Мб |
particle_plume_1_win.wmv |
51.77Мб |
particle_plume_2_mac.mp4 |
45.57Мб |
particle_plume_2_win.wmv |
64.23Мб |
Particle_Tracing_Module_42a.pdf |
1.43Мб |
Particle_Tracing_Module_42a.ppt |
6.27Мб |
Particle_Tracing_Module_42a.pptx |
6.02Мб |
Particle_Tracing_Module_43.pdf |
3.12Мб |
Particle_Tracing_Module_43.ppt |
9.85Мб |
Particle_Tracing_Module_43.pptx |
9.53Мб |
Particle Tracing Module in Comsol 4.2a.pdf |
1.43Мб |
Patch for MATLAB 2010a support and Snow Leopard support.pdf |
109.15Кб |
pb_acid_battery_1d_Dl.txt |
780б |
pb_acid_battery_1d_Dl.txt |
780б |
pb_acid_battery_1d_Dl.txt |
780б |
pb_acid_battery_1d_Dl.txt |
780б |
pb_acid_battery_1d_E_eq_Pb.txt |
931б |
pb_acid_battery_1d_E_eq_Pb.txt |
931б |
pb_acid_battery_1d_E_eq_Pb.txt |
931б |
pb_acid_battery_1d_E_eq_Pb.txt |
931б |
pb_acid_battery_1d_E_eq_PbO2.txt |
887б |
pb_acid_battery_1d_E_eq_PbO2.txt |
887б |
pb_acid_battery_1d_E_eq_PbO2.txt |
887б |
pb_acid_battery_1d_E_eq_PbO2.txt |
887б |
pb_acid_battery_1d_parameters.txt |
2.29Кб |
pb_acid_battery_1d_parameters.txt |
2.29Кб |
pb_acid_battery_1d_parameters.txt |
2.29Кб |
pb_acid_battery_1d_parameters.txt |
2.29Кб |
pb_acid_battery_1d_sigmal.txt |
887б |
pb_acid_battery_1d_sigmal.txt |
887б |
pb_acid_battery_1d_sigmal.txt |
887б |
pb_acid_battery_1d_sigmal.txt |
887б |
pb_acid_battery_1d.mph |
998.88Кб |
pb_acid_battery_1d.mph |
739.07Кб |
pb_acid_battery_1d.mph |
801.68Кб |
pb_acid_battery_1d.mph |
820.08Кб |
perforated_muffler_exp_data.txt |
14.80Кб |
perforated_muffler_exp_data.txt |
14.80Кб |
perforated_muffler_exp_data.txt |
14.80Кб |
perforated_muffler_exp_data.txt |
14.80Кб |
perforated_muffler_exp_data.txt |
14.80Кб |
perforated_muffler_sbs.pdf |
795.86Кб |
perforated_muffler.mph |
72.72Мб |
perforated_muffler.mph |
61.81Мб |
perforated_muffler.mph |
55.51Мб |
perforated_muffler.mph |
56.00Мб |
perforated_muffler.mph |
56.00Мб |
perforated_muffler.mphbin |
970.44Кб |
perforated_muffler.mphbin |
650.84Кб |
perforated_muffler.mphbin |
650.84Кб |
perforated_muffler.mphbin |
650.84Кб |
perforated_muffler.mphbin |
650.84Кб |
perforated_muffler.pdf |
442.43Кб |
perforated_well_sbs.pdf |
597.25Кб |
perforated_well.mph |
2.24Мб |
perforated_well.pdf |
456.42Кб |
periodic_boundary_condition.mph |
724.94Кб |
periodic_boundary_condition.mph |
724.81Кб |
periodic_boundary_condition.mph |
713.93Кб |
Peristaltic Pump.avi |
1.49Мб |
Peristaltic Pump.pdf |
369.65Кб |
permanent_magnet_2d_sbs.pdf |
309.70Кб |
permanent_magnet_2d.mph |
473.69Кб |
permanent_magnet_2d.pdf |
79.56Кб |
permanent_magnet.mph |
1.96Мб |
permanent_magnet.mph |
1.97Мб |
permanent_magnet.mph |
1.98Мб |
permanent_magnet.mph |
1.34Мб |
permanent_magnet.mph |
3.63Мб |
permanent_magnet.mphbin |
155.28Кб |
permanent_magnet.mphbin |
155.28Кб |
permanent_magnet.mphbin |
155.28Кб |
permanent_magnet.mphbin |
155.28Кб |
permanent_magnet.mphbin |
155.28Кб |
permeable_sphere_static_bfield.mph |
7.62Мб |
permeable_sphere_static_bfield.mph |
7.63Мб |
phase_change_sbs.pdf |
477.56Кб |
phase_change_v42a.mph |
47.03Кб |
Phase_change.avi |
24.02Мб |
phase_change.mph |
91.29Кб |
phase_change.mph |
471.92Кб |
phase_change.pdf |
332.76Кб |
phase_change.pdf |
426.43Кб |
phase_transition_41.mph |
117.30Кб |
phase_transition_42.mph |
113.63Кб |
photonic_crystal_sbs.pdf |
580.94Кб |
photonic_crystal.mph |
1.14Мб |
photonic_crystal.mph |
1.34Мб |
photonic_crystal.mph |
1.34Мб |
photonic_crystal.mph |
1.35Мб |
photonic_crystal.mph |
1.18Мб |
photonic_crystal.mph |
1.81Мб |
photonic_crystal.mphbin |
72.23Кб |
photonic_crystal.mphbin |
72.23Кб |
photonic_crystal.mphbin |
72.23Кб |
photonic_crystal.mphbin |
72.23Кб |
photonic_crystal.mphbin |
72.23Кб |
photonic_crystal.pdf |
368.35Кб |
photonic_micro_prism_sbs.pdf |
489.81Кб |
photonic_micro_prism.mph |
719.03Кб |
photonic_micro_prism.pdf |
187.01Кб |
piezoacoustic_transducer_sbs.pdf |
442.69Кб |
piezoacoustic_transducer.mph |
436.63Кб |
piezoacoustic_transducer.mph |
215.54Кб |
piezoacoustic_transducer.mph |
189.29Кб |
piezoacoustic_transducer.mph |
300.79Кб |
piezoacoustic_transducer.pdf |
325.49Кб |
piezoceramic_tube_sbs.pdf |
610.89Кб |
piezoceramic_tube.mph |
151.14Кб |
piezoceramic_tube.mph |
214.08Кб |
piezoceramic_tube.pdf |
288.75Кб |
piston_mesh.zip |
6.53Мб |
plasma.argon_3d_icp.pdf |
217.73Кб |
plasma.boltzmann_oxygen.pdf |
392.54Кб |
plasma.positive_column_1d.pdf |
248.66Кб |
plasma.positive_column_2d.pdf |
298.83Кб |
plasma.thermal_plasma.pdf |
361.75Кб |
Plasma Modeling with Comsol Multiphysics.pdf |
1.84Мб |
plasmonic_wire_grating.mph |
3.64Мб |
plasmonic_wire_grating.mph |
6.32Мб |
plasmonic_wire_grating.mph |
3.64Мб |
plasmonic_wire_grating.pdf |
670.92Кб |
plot_on_unit_sphere_35a.mph |
1.01Мб |
plot_on_unit_sphere_40.mph |
561.59Кб |
point_source_sbs.pdf |
283.71Кб |
point_source.mph |
136.99Кб |
point_source.mph |
252.36Кб |
point_source.mph |
188.46Кб |
point_source.mph |
283.52Кб |
point_source.pdf |
99.24Кб |
porous_free.mph |
321.38Кб |
porous_free.pdf |
319.48Кб |
porous_reactor_sbs.pdf |
522.60Кб |
porous_reactor.mph |
2.13Мб |
porous_reactor.mph |
2.35Мб |
porous_reactor.mph |
5.16Мб |
porous_reactor.mph |
3.55Мб |
porous_reactor.mph |
5.95Мб |
porous_reactor.mph |
6.08Мб |
porous_reactor.pdf |
324.18Кб |
positive_column_1d.mph |
1.07Мб |
positive_column_1d.mph |
1.08Мб |
positive_column_1d.mph |
5.09Мб |
positive_column_1d.mph |
5.09Мб |
positive_column_2d.mph |
19.16Мб |
positive_column_2d.mph |
19.17Мб |
positive_column_2d.mph |
4.24Мб |
positive_column_2d.mph |
4.22Мб |
postcontonsurf.m |
2.60Кб |
potcore_inductor_sbs.pdf |
444.19Кб |
potcore_inductor.mph |
1.03Мб |
potcore_inductor.mph |
796.09Кб |
potcore_inductor.mph |
799.15Кб |
potcore_inductor.mph |
683.07Кб |
potcore_inductor.pdf |
198.79Кб |
potential_between_cylinders_sbs.pdf |
530.67Кб |
potential_between_cylinders.mph |
616.19Кб |
potential_between_cylinders.mph |
452.41Кб |
potential_between_cylinders.pdf |
158.80Кб |
pressure_sensor_2d.mph |
3.55Мб |
pressure_sensor_3d.mph |
4.33Мб |
pressure_sensor_sbs.pdf |
982.95Кб |
pressure_sensor.pdf |
478.74Кб |
primary_cd_grid_parameters.txt |
663б |
primary_cd_grid_parameters.txt |
663б |
primary_cd_grid_parameters.txt |
663б |
primary_cd_grid_parameters.txt |
663б |
primary_cd_grid.mph |
20.43Мб |
primary_cd_grid.mph |
7.95Мб |
primary_cd_grid.mph |
16.27Мб |
primary_cd_grid.mph |
16.30Мб |
quadrupole_3d_sbs.pdf |
374.40Кб |
quadrupole_3d_sbs.pdf |
374.40Кб |
quadrupole_3d.mph |
4.95Мб |
quadrupole_3d.pdf |
212.66Кб |
quadrupole_3d.pdf |
212.66Кб |
quadrupole_lens.mph |
2.46Мб |
quadrupole_lens.mph |
2.45Мб |
quadrupole_lens.mph |
2.51Мб |
quadrupole_lens.mph |
1.59Мб |
quadrupole_lens.mphbin |
595.45Кб |
quadrupole_lens.mphbin |
595.45Кб |
quadrupole_lens.mphbin |
595.45Кб |
quadrupole_lens.mphbin |
595.45Кб |
quadrupole_mass_filter.mph |
137.66Мб |
quadrupole_mass_spectrometer.mph |
61.12Мб |
quadrupole_sbs.pdf |
487.08Кб |
quadrupole.mph |
443.31Кб |
quadrupole.mph |
324.24Кб |
quadrupole.mph |
332.14Кб |
quadrupole.mph |
260.32Кб |
quadrupole.pdf |
326.51Кб |
radar_cross_section.mph |
93.87Мб |
radar_cross_section.mph |
93.83Мб |
radar_cross_section.mph |
93.85Мб |
radar_cross_section.mph |
93.77Мб |
RCS_of_Sphere_reset.mph |
216.30Кб |
RCS_of_Sphere.mph |
50.60Мб |
rcs_sphere.mph |
48.95Мб |
RCSofSphere.pdf |
296.67Кб |
reinforced_membrane.mph |
647.58Кб |
reinforced_membrane.pdf |
245.39Кб |
resistant1_2.mph |
554.43Кб |
resistant1.mph |
387.90Кб |
resistant1.tif |
318.31Кб |
resistive_heating_sbs.pdf |
682.27Кб |
resistive_heating.mph |
1.38Мб |
resistive_heating.pdf |
96.53Кб |
RF_Coil_Tutorial.pdf |
1.24Мб |
RF_Coil_Tutorial.ppt |
2.09Мб |
rf_coil.mph |
39.09Мб |
rf_coil.mph |
39.05Мб |
rf_coil.mph |
42.26Мб |
rf_coil.mph |
35.41Мб |
rf_coil.mphbin |
120.82Кб |
rf_coil.mphbin |
120.82Кб |
rf_coil.mphbin |
120.82Кб |
rf_coil.mphbin |
120.82Кб |
RF_Gaussians.mph |
140.54Кб |
RF_Heating_tutorial.ppt |
1.07Мб |
rf_heating.mph |
32.77Мб |
rf_heating.mphbin |
362.31Кб |
rf.coaxial_waveguide_coupling.pdf |
129.45Кб |
rf.microwave_cancer_therapy.pdf |
265.82Кб |
rf.microwave_oven.pdf |
291.17Кб |
rf.periodic_boundary_condition.pdf |
111.59Кб |
rf.photonic_crystal.pdf |
163.50Кб |
rf.radar_cross_section.pdf |
357.32Кб |
rf.rf_coil.pdf |
259.31Кб |
rf.step_index_fiber.pdf |
140.44Кб |
rf.waveguide_adapter.pdf |
194.55Кб |
RFModule_EvanescentModeCylindricalCavityFilter.ppt |
522.00Кб |
rising_bubble_2daxi.mph |
24.93Мб |
rising_bubble_2daxi.mph |
25.23Мб |
rising_bubble_2daxi.mph |
25.12Мб |
rising_bubble_2daxi.mph |
25.52Мб |
rising_bubble_ls.mph |
16.06Мб |
rising_bubble_pf.mph |
20.69Мб |
rising_bubble_sbs.pdf |
665.24Кб |
rising_bubble.pdf |
353.23Кб |
rock_fracture_flow_aperture_data.txt |
259.20Кб |
rock_fracture_flow_aperture_data.txt |
259.20Кб |
rock_fracture_flow_aperture_data.txt |
259.20Кб |
rock_fracture_flow.mph |
490.33Кб |
rock_fracture_flow.mph |
347.92Кб |
rock_fracture_flow.mph |
442.92Кб |
rock_fracture_sbs.pdf |
302.75Кб |
rock_fracture.mph |
894.38Кб |
rock_fracture.pdf |
219.76Кб |
rod_and_permanent_magnet_sbs.pdf |
479.80Кб |
rod_and_permanent_magnet.mph |
3.48Мб |
rod_and_permanent_magnet.pdf |
138.60Кб |
rotating_disk_sbs.pdf |
560.65Кб |
rotating_disk.mph |
239.06Кб |
rotating_disk.mph |
23.41Мб |
rotating_disk.mph |
3.72Мб |
rotating_disk.pdf |
415.95Кб |
rotor_sbs.pdf |
459.84Кб |
rotor.mph |
2.33Мб |
rotor.pdf |
151.72Кб |
sajben_diffuser_ptop_strong.txt |
874б |
sajben_diffuser_ptop_weak.txt |
1.56Кб |
sajben_diffuser_upper_wall.txt |
2.69Кб |
sajben_diffuser_u-xh4611.txt |
673б |
sajben_diffuser_u-xh6340.txt |
696б |
sajben_diffuser.mph |
10.57Мб |
sar_in_human_head_interp.txt |
1.96Мб |
sar_in_human_head_interp.txt |
1.96Мб |
sar_in_human_head_sbs.pdf |
682.70Кб |
sar_in_human_head.mph |
15.39Мб |
sar_in_human_head.mph |
13.58Мб |
sar_in_human_head.mphbin |
1.31Мб |
sar_in_human_head.mphbin |
1.31Мб |
sar_in_human_head.pdf |
224.09Кб |
saw_gas_sensor_parameters.txt |
448б |
saw_gas_sensor_parameters.txt |
448б |
saw_gas_sensor_parameters.txt |
448б |
SAW_gas_sensor_sbs.pdf |
881.94Кб |
saw_gas_sensor.mph |
8.65Мб |
saw_gas_sensor.mph |
8.20Мб |
saw_gas_sensor.mph |
9.08Мб |
SAW_gas_sensor.mph |
2.41Мб |
SAW_gas_sensor.pdf |
467.59Кб |
scattering_nanosphere_ei_interpolation.txt |
250б |
scattering_nanosphere_er_interpolation.txt |
277б |
scattering_nanosphere.mph |
50.94Мб |
second_harmonic_generation_outdata.txt |
8.93Кб |
second_harmonic_generation_sbs.pdf |
618.06Кб |
second_harmonic_generation.mph |
2.61Мб |
second_harmonic_generation.pdf |
334.11Кб |
semiconductor_diode_sbs.pdf |
523.41Кб |
semiconductor_diode.mph |
3.50Мб |
semiconductor_diode.pdf |
359.40Кб |
shaft_with_fillet_sbs.pdf |
355.67Кб |
shaft_with_fillet.mph |
2.65Мб |
shaft_with_fillet.mph |
7.07Мб |
shaft_with_fillet.pdf |
256.59Кб |
shear_bender_sbs.pdf |
616.98Кб |
shear_bender.mph |
656.29Кб |
shear_bender.mph |
362.44Кб |
shear_bender.mph |
284.84Кб |
shear_bender.mph |
944.64Кб |
shear_bender.pdf |
200.50Кб |
sheet_metal_forming.mph |
14.55Мб |
sheet_metal_forming.mph |
14.85Мб |
sheet_metal_forming.mph |
14.85Мб |
shell_conduction_sbs.pdf |
434.44Кб |
shell_conduction.mph |
222.67Кб |
shell_conduction.mph |
69.61Кб |
shell_conduction.mph |
61.61Кб |
shell_conduction.mph |
91.82Кб |
shell_conduction.pdf |
182.51Кб |
shock_tube_sbs.pdf |
309.04Кб |
shock_tube.mph |
210.58Кб |
shock_tube.mph |
137.77Кб |
shock_tube.mph |
115.57Кб |
shock_tube.mph |
171.48Кб |
shock_tube.pdf |
199.13Кб |
simplified_circuit_board_1d.mph |
80.17Кб |
simplified_circuit_board_3d_hcoeff.mph |
1.18Мб |
simplified_circuit_board_sbs.pdf |
383.23Кб |
simplified_circuit_board.pdf |
208.36Кб |
Simulation of a Geothermal System in Comsol Multiphysics.pdf |
1.08Мб |
single_Coil_2Daxi.ZIP |
205.92Кб |
single Coil with air.mph |
1.29Мб |
single Coil with iron.mph |
1.29Мб |
skin_effect_sbs.pdf |
370.07Кб |
skin_effect.mph |
210.22Кб |
skin_effect.pdf |
180.56Кб |
Sliding_mesh.mph |
91.89Кб |
sliding_wedge_sbs.pdf |
542.84Кб |
sliding_wedge.mph |
820.85Кб |
sliding_wedge.mph |
2.18Мб |
sliding_wedge.pdf |
193.76Кб |
sloshing_tank_compr.avi |
1020.00Кб |
sloshing_tank_sbs.pdf |
524.43Кб |
sloshing_tank.mph |
1.09Мб |
sloshing_tank.mph |
10.06Мб |
sloshing_tank.mph |
10.05Мб |
sloshing_tank.mph |
10.03Мб |
sloshing_tank.mph |
10.11Мб |
sloshing_tank.pdf |
410.39Кб |
sme.viscoelastic_tube.pdf |
246.86Кб |
snap_hook_fastener_sbs.pdf |
432.92Кб |
snap_hook_fastener.mph |
78.96Мб |
snap_hook_fastener.mphbin |
174.70Кб |
snap_hook_fastener.pdf |
239.19Кб |
snap_hook_parameters.txt |
302б |
snap_hook_parameters.txt |
302б |
snap_hook_parameters.txt |
302б |
snap_hook_parameters.txt |
302б |
snap_hook_sweep.txt |
160б |
snap_hook_sweep.txt |
160б |
snap_hook_sweep.txt |
165б |
snap_hook_sweep.txt |
165б |
snap_hook.mph |
9.88Мб |
snap_hook.mph |
9.24Мб |
snap_hook.mph |
10.83Мб |
snap_hook.mph |
10.80Мб |
snap_hook.mphbin |
172.45Кб |
snap_hook.mphbin |
172.45Кб |
snap_hook.mphbin |
172.45Кб |
snap_hook.mphbin |
172.45Кб |
snip1.png |
227.50Кб |
snip2.png |
97.78Кб |
sofc_unit_cell_const.txt |
2.77Кб |
sofc_unit_cell_expr.txt |
632б |
sofc_unit_cell_parameters.txt |
2.56Кб |
sofc_unit_cell_parameters.txt |
2.56Кб |
sofc_unit_cell_parameters.txt |
2.61Кб |
sofc_unit_cell_parameters.txt |
2.61Кб |
sofc_unit_cell_sbs.pdf |
800.68Кб |
sofc_unit_cell.mph |
3.98Мб |
sofc_unit_cell.mph |
1.49Мб |
sofc_unit_cell.mph |
1.39Мб |
sofc_unit_cell.mph |
1.64Мб |
sofc_unit_cell.mph |
6.10Мб |
sofc_unit_cell.pdf |
419.92Кб |
Soldering2.mph |
4.59Мб |
Solving the Linear System Matrix in Comsol.pdf |
370.22Кб |
spherical_capacitor_sbs.pdf |
282.46Кб |
spherical_capacitor.mph |
172.63Кб |
spherical_capacitor.pdf |
105.85Кб |
spherical_punch_sbs_rus.pdf |
664.82Кб |
spherical_punch_sbs.pdf |
364.47Кб |
spherical_punch.mph |
28.95Мб |
spherical_punch.mphbin |
7.86Кб |
spherical_punch.pdf |
252.91Кб |
spherically_symmetric_transport.mph |
65.01Кб |
spherically_symmetric_transport.mph |
70.32Кб |
spherically_symmetric_transport.mph |
66.24Кб |
spherically_symmetric_transport.mph |
66.08Кб |
spinning_gear_opt.mph |
1.83Мб |
spinning_gear_param.mph |
6.64Мб |
spinning_gear_sbs.pdf |
1017.24Кб |
spinning_gear.pdf |
391.79Кб |
spiral_coil_with_PML.mph |
2.63Мб |
spiral_coil.mph |
1.94Мб |
spiral_inductor.mph |
752.67Кб |
spiral_inductor.mph |
588.13Кб |
spiral_inductor.mph |
1.68Мб |
spiral_inductor.mphbin |
151.77Кб |
spiral_inductor.mphbin |
151.77Кб |
spiral_inductor.mphbin |
151.77Кб |
square_inductor_sbs.pdf |
603.68Кб |
square_inductor.mph |
1.34Мб |
square_inductor.pdf |
345.86Кб |
steam_reformer_const.txt |
1.51Кб |
steam_reformer_expr.txt |
517б |
steam_reformer_parameters.txt |
1.22Кб |
steam_reformer_parameters.txt |
1.22Кб |
steam_reformer_parameters.txt |
1.22Кб |
steam_reformer_parameters.txt |
1.22Кб |
steam_reformer_sbs.pdf |
907.42Кб |
steam_reformer.mph |
3.19Мб |
steam_reformer.mph |
2.65Мб |
steam_reformer.mph |
2.09Мб |
steam_reformer.mph |
7.15Мб |
steam_reformer.mph |
6.33Мб |
steam_reformer.pdf |
588.41Кб |
step_index_fiber_sbs.pdf |
338.11Кб |
step_index_fiber.mph |
1.58Мб |
step_index_fiber.mph |
785.52Кб |
step_index_fiber.mph |
800.72Кб |
step_index_fiber.mph |
798.68Кб |
step_index_fiber.mph |
773.42Кб |
step_index_fiber.mph |
884.39Кб |
step_index_fiber.pdf |
184.76Кб |
stress_optical_generalized_sbs.pdf |
640.30Кб |
stress_optical_generalized.mph |
1.28Мб |
stress_optical_generalized.mph |
41.03Мб |
stress_optical_generalized.mph |
51.44Мб |
stress_optical_generalized.pdf |
220.46Кб |
stress_optical_parameters.txt |
762б |
stress_optical_parameters.txt |
762б |
stress_optical_sbs.pdf |
818.50Кб |
stress_optical.mph |
764.28Кб |
stress_optical.mph |
40.83Мб |
stress_optical.mph |
52.06Мб |
stress_optical.pdf |
152.33Кб |
surface_chemistry_tutorial.mph |
7.39Мб |
swept_and_free_40a.mph |
187.46Кб |
ta_sphere_radiating_water_42a.mph |
1.16Мб |
telegraph_equation_sbs.pdf |
301.26Кб |
telegraph_equation.mph |
68.40Кб |
telegraph_equation.mph |
141.52Кб |
telegraph_equation.mph |
119.86Кб |
telegraph_equation.mph |
143.06Кб |
telegraph_equation.pdf |
207.65Кб |
test_component_eigen.mph |
448.97Кб |
test_component_frequency.mph |
3.28Мб |
test_component_parametric.mph |
1.60Мб |
test_component_quasi_static.mph |
1.43Мб |
test_component_static.mph |
267.51Кб |
test_component.pdf |
1.91Мб |
thermal_anneal_sbs.pdf |
390.05Кб |
thermal_anneal.mph |
1.06Мб |
thermal_anneal.pdf |
283.64Кб |
thermal_annealing.mph |
1.13Мб |
thermal_annealing.mph |
1.27Мб |
thermal_annealing.mph |
1.91Мб |
thermal_annealing.mph |
1.51Мб |
thermal_annealing.mph |
1.93Мб |
thermal_controller_simulink_sbs.pdf |
596.79Кб |
thermal_controller_simulink.mph |
410.89Кб |
thermal_controller_simulink.mph |
108.74Кб |
thermal_controller_simulink.pdf |
188.45Кб |
thermal_plasma_geom.mphbin |
8.60Кб |
thermal_plasma_geom.mphbin |
8.60Кб |
thermal_plasma_geom.mphbin |
0б |
thermal_plasma.mph |
36.80Мб |
thermal_plasma.mph |
54.12Мб |
thermal_plasma.mph |
54.52Мб |
thermal_plasma.mph |
54.23Мб |
thermal_plasma.mphbin |
8.60Кб |
thermal_plasma.mphbin |
8.60Кб |
thermal_viscoelastic_tube_sbs.pdf |
423.77Кб |
thermal_viscoelastic_tube.mph |
17.92Мб |
thermal_viscoelastic_tube.pdf |
301.38Кб |
thermally_induced_creep_sbs.pdf |
1003.13Кб |
thermally_induced_creep.mph |
3.75Мб |
thermally_induced_creep.mph |
6.55Мб |
thermally_induced_creep.mph |
6.55Мб |
thermally_induced_creep.mph |
11.96Мб |
thermally_induced_creep.mph |
1.33Мб |
thermally_induced_creep.pdf |
525.29Кб |
thermomechanical_valve_2d.mph |
1.03Мб |
thermomechanical_valve_3d.mph |
5.86Мб |
thermomechanical_valve.pdf |
692.52Кб |
thermophoresis.mph |
2.94Мб |
thermophoresis.mph |
3.24Мб |
thermos_laminar_flow.mph |
751.36Кб |
thermos_laminar_hcoeff.mph |
291.92Кб |
thermos_laminar_hcoeff.pdf |
411.12Кб |
thermos_laminar_sbs.pdf |
770.99Кб |
thermos_laminar.pdf |
410.87Кб |
thin_film_resistance_sbs.pdf |
386.40Кб |
thin_film_resistance.mph |
510.11Кб |
thin_film_resistance.mph |
203.65Кб |
thin_film_resistance.mph |
206.84Кб |
thin_film_resistance.mph |
157.13Кб |
thin_film_resistance.pdf |
249.14Кб |
thin_geom_35a.mph |
336.93Кб |
thin_geom_40a.mph |
62.89Кб |
thin_layer_diffusion_sbs.pdf |
630.91Кб |
thin_layer_diffusion.mph |
493.07Кб |
thin_layer_diffusion.mph |
143.10Кб |
thin_layer_diffusion.mph |
219.68Кб |
thin_layer_diffusion.mph |
231.79Кб |
thin_layer_diffusion.mph |
159.73Кб |
thin_layer_diffusion.mph |
223.28Кб |
thin_layer_diffusion.pdf |
201.18Кб |
thin_plate_2d.mph |
139.18Кб |
thin_plate_3d.mph |
502.78Кб |
thin_plate_sbs.pdf |
281.56Кб |
thin_plate.pdf |
197.49Кб |
three_turn_coil_with_skin_effect.mph |
152.26Кб |
time_derivative_on_boundary.mph |
1.55Мб |
town2.txt |
4.82Кб |
town2.txt |
4.82Кб |
town4.txt |
4.84Кб |
town4.txt |
4.84Кб |
traffic_tunnel_sbs.pdf |
744.40Кб |
traffic_tunnel.mph |
12.46Мб |
traffic_tunnel.pdf |
353.05Кб |
TransientLinearHeating.mph |
15.85Мб |
TransientNonlinearHeating.mph |
15.84Мб |
transport_and_adsorption_parameters.txt |
302б |
transport_and_adsorption_parameters.txt |
303б |
transport_and_adsorption_parameters.txt |
303б |
transport_and_adsorption.mph |
407.56Кб |
transport_and_adsorption.mph |
436.50Кб |
transport_and_adsorption.mph |
463.11Кб |
transport_problem_sbs.pdf |
279.24Кб |
transport_problem.mph |
147.71Кб |
transport_problem.pdf |
195.06Кб |
triaxial_test.mph |
52.65Мб |
tube_connection_igs.mph |
3.04Мб |
tube_connection_sbs.pdf |
757.14Кб |
tube_connection_sw.mph |
3.52Мб |
tube_connection.mph |
2.94Мб |
tube_connection.mph |
2.65Мб |
tube_connection.mph |
3.68Мб |
tube_connection.pdf |
165.28Кб |
tubular_reactor_sbs.pdf |
415.70Кб |
tubular_reactor.mph |
961.96Кб |
tubular_reactor.mph |
267.61Кб |
tubular_reactor.mph |
216.66Кб |
tubular_reactor.mph |
280.46Кб |
tubular_reactor.pdf |
259.87Кб |
turbulent_backstep_sbs.pdf |
446.47Кб |
turbulent_backstep.mph |
704.27Кб |
turbulent_backstep.mph |
1.35Мб |
turbulent_backstep.mph |
2.08Мб |
turbulent_backstep.mph |
2.27Мб |
turbulent_backstep.mph |
1.93Мб |
turbulent_backstep.mph |
2.38Мб |
turbulent_backstep.pdf |
286.60Кб |
turbulent_heat_exchanger_sbs.pdf |
592.29Кб |
turbulent_heat_exchanger.mph |
1.20Мб |
turbulent_heat_exchanger.mph |
280.29Кб |
turbulent_heat_exchanger.mph |
6.29Мб |
turbulent_heat_exchanger.mph |
4.81Мб |
turbulent_heat_exchanger.mphbin |
4.60Кб |
turbulent_heat_exchanger.mphbin |
4.60Кб |
turbulent_heat_exchanger.mphbin |
4.60Кб |
turbulent_heat_exchanger.pdf |
328.66Кб |
turbulent_residence_time_2d.mph |
6.30Мб |
turbulent_residence_time_3d.mph |
17.82Мб |
turbulent_residence_time_3d.mphbin |
148.08Кб |
turbulent_residence_time_sbs.pdf |
757.63Кб |
turbulent_residence_time.pdf |
452.23Кб |
two_term_boltzmann_cs1.txt |
1.67Кб |
two_term_boltzmann_cs10.txt |
750б |
two_term_boltzmann_cs11.txt |
720б |
two_term_boltzmann_cs12.txt |
450б |
two_term_boltzmann_cs13.txt |
330б |
two_term_boltzmann_cs14.txt |
150б |
two_term_boltzmann_cs15.txt |
270б |
two_term_boltzmann_cs16.txt |
5.38Кб |
two_term_boltzmann_cs2.txt |
1.49Кб |
two_term_boltzmann_cs3.txt |
1.36Кб |
two_term_boltzmann_cs4.txt |
420б |
two_term_boltzmann_cs5.txt |
1.26Кб |
two_term_boltzmann_cs6.txt |
990б |
two_term_boltzmann_cs7.txt |
420б |
two_term_boltzmann_cs8.txt |
1.29Кб |
two_term_boltzmann_cs9.txt |
1.08Кб |
two_term_boltzmann_sbs.pdf |
834.91Кб |
two_term_boltzmann.mph |
873.46Кб |
two_term_boltzmann.mph |
1.33Мб |
two_term_boltzmann.pdf |
496.25Кб |
twophase_flow_air_oil.mph |
9.55Мб |
twophase_flow_air_water.mph |
9.55Мб |
twophase_flow_oil_water.mph |
8.48Мб |
twophase_flow_sbs.pdf |
783.10Кб |
twophase_flow.pdf |
527.12Кб |
twophase_turbulence_sbs.pdf |
405.96Кб |
twophase_turbulence.mph |
10.68Мб |
twophase_turbulence.pdf |
248.82Кб |
ultrasound_scattering.mph |
453.55Кб |
ultrasound_scattering.pdf |
296.57Кб |
unit_heat_exchanger.mph |
814.11Кб |
unit_heat_exchanger.pdf |
367.37Кб |
Using Functions Based on Interpolated Data.pdf |
909.21Кб |
variables_1_41.txt |
369б |
variables_2_41.txt |
260б |
vented_loudspeaker_enclosure_Cs.txt |
2.02Кб |
vented_loudspeaker_enclosure_Cs.txt |
2.02Кб |
vented_loudspeaker_enclosure_Cs.txt |
0б |
vented_loudspeaker_enclosure_Lb.txt |
2.03Кб |
vented_loudspeaker_enclosure_Lb.txt |
2.03Кб |
vented_loudspeaker_enclosure_Lb.txt |
2.03Кб |
vented_loudspeaker_enclosure_Lb.txt |
2.03Кб |
vented_loudspeaker_enclosure_Rb.txt |
2.01Кб |
vented_loudspeaker_enclosure_Rb.txt |
2.01Кб |
vented_loudspeaker_enclosure_Rb.txt |
2.01Кб |
vented_loudspeaker_enclosure_Rb.txt |
2.01Кб |
vented_loudspeaker_enclosure_Rs.txt |
2.01Кб |
vented_loudspeaker_enclosure_Rs.txt |
2.01Кб |
vented_loudspeaker_enclosure_Rs.txt |
0б |
vented_loudspeaker_enclosure_sbs.pdf |
971.00Кб |
vented_loudspeaker_enclosure.mph |
95.14Мб |
vented_loudspeaker_enclosure.mph |
81.90Мб |
vented_loudspeaker_enclosure.mph |
81.74Мб |
vented_loudspeaker_enclosure.mph |
100.02Мб |
vented_loudspeaker_enclosure.mph |
88.78Мб |
vented_loudspeaker_enclosure.mphbin |
1.29Мб |
vented_loudspeaker_enclosure.mphbin |
830.70Кб |
vented_loudspeaker_enclosure.mphbin |
830.70Кб |
vented_loudspeaker_enclosure.mphbin |
830.70Кб |
vented_loudspeaker_enclosure.mphbin |
830.70Кб |
vented_loudspeaker_enclosure.pdf |
459.81Кб |
vibrating_beam_sbs.pdf |
374.73Кб |
vibrating_beam.mph |
9.62Мб |
vibrating_beam.mph |
4.35Мб |
vibrating_beam.mph |
3.71Мб |
vibrating_beam.pdf |
208.14Кб |
viscoelastic_damper_const.txt |
1.02Кб |
viscoelastic_damper_frequency.mph |
4.76Мб |
viscoelastic_damper_frequency.mph |
6.52Мб |
viscoelastic_damper_sbs.pdf |
565.39Кб |
viscoelastic_damper_transient.mph |
41.67Мб |
viscoelastic_damper_transient.mph |
99.76Мб |
viscoelastic_damper.mphbin |
138.93Кб |
viscoelastic_damper.mphbin |
138.93Кб |
viscoelastic_damper.pdf |
359.09Кб |
viscoelastic_material.mph |
20.05Мб |
viscoelastic_material.pdf |
902.43Кб |
viscoelastic_tube.mph |
26.35Мб |
viscoelastic_tube.mph |
19.05Мб |
viscoelastic_tube.mph |
19.07Мб |
viscoelastic_tube.mph |
19.01Мб |
waveguide_adapter_sbs.pdf |
481.69Кб |
waveguide_adapter.mph |
27.19Мб |
waveguide_adapter.mph |
17.74Мб |
waveguide_adapter.mph |
21.83Мб |
waveguide_adapter.mph |
21.97Мб |
waveguide_adapter.mph |
21.19Мб |
waveguide_adapter.mph |
22.77Мб |
waveguide_adapter.mphbin |
139.77Кб |
waveguide_adapter.mphbin |
139.77Кб |
waveguide_adapter.mphbin |
139.77Кб |
waveguide_adapter.mphbin |
139.77Кб |
waveguide_adapter.mphbin |
139.77Кб |
waveguide_adapter.mphbin |
139.77Кб |
waveguide_adapter.pdf |
303.90Кб |
waveguide_bend.mphbin |
611.36Кб |
waveguide_hbend_S_parameters_sbs.pdf |
334.62Кб |
waveguide_hbend_S_parameters.mph |
6.27Мб |
waveguide_hbend_S_parameters.pdf |
182.61Кб |
waveguide_iris_filter.mph |
26.07Мб |
waveguide_iris_filter.mph |
26.07Мб |
waveguide_optimization_sbs.pdf |
470.63Кб |
waveguide_optimization.mph |
943.82Кб |
waveguide_optimization.pdf |
236.24Кб |
WaveguideOnly.mph |
690.37Кб |
WaveguideWithLossyDielectric.mph |
892.08Кб |
WaveguideWithLossyDielectricAndHeating.mph |
972.40Кб |
WaveguideWithNonlinearLossyDielectricAndHeating.mph |
972.95Кб |
Windows Memory Diagnostic.exe |
639.57Кб |
winlm.zip |
10.10Мб |
zn_electrowinning_parameters.txt |
960б |
zn_electrowinning_parameters.txt |
960б |
zn_electrowinning_parameters.txt |
960б |
zn_electrowinning.mph |
1.03Мб |
zn_electrowinning.mph |
821.28Кб |
zn_electrowinning.mph |
1.23Мб |
Быстрое введение в FEMLAB.pdf |
1.00Мб |
Компьютерное моделирование термомеханических свойств замерзающей почвы.pdf |
481.56Кб |
Моделирование лавинно-стримерного перехода в пакете Comsol.pdf |
1.59Мб |
Общие принципы создания моделей в COMSOL.pdf |
345.66Кб |
Постановка граничных условий при конечно-элементном моделировании течения слоя жидкости со свободной поверхностью.pdf |
83.55Кб |
Применение Comsol для решения задач теплопроводности.pdf |
1.60Мб |
Применение ЭВМ для решения задач теплопроводности_ЕгоровВИ_2006.pdf |
1.60Мб |
Пример запуска программы Comsol на Windows-кластере.pdf |
231.31Кб |
Распределенная энерготепловая модель никель-водородной аккумуляторной батареи 40НВ-70.pdf |
502.21Кб |
Руководство быстрого начала работы с FEMLAB.pdf |
764.99Кб |
Численный расчет радиационного теплообмена.pdf |
696.51Кб |